// VIPS image wrapper

/*

	This file is part of VIPS.

	VIPS is free software; you can redistribute it and/or modify
	it under the terms of the GNU Lesser General Public License as published by
	the Free Software Foundation; either version 2 of the License, or
	(at your option) any later version.

	This program is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
	GNU Lesser General Public License for more details.

	You should have received a copy of the GNU Lesser General Public License
	along with this program; if not, write to the Free Software
	Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
	02110-1301  USA

 */

/*

	These files are distributed with VIPS - http://www.vips.ecs.soton.ac.uk

 */

#ifndef VIPS_VIMAGE_H
#define VIPS_VIMAGE_H

#include <list>
#include <complex>
#include <vector>

#include <cstring>

#include <vips/vips.h>

VIPS_NAMESPACE_START

/* Small utility things.
 */

VIPS_CPLUSPLUS_API std::vector<double> to_vectorv(int n, ...);
VIPS_CPLUSPLUS_API std::vector<double> to_vector(double value);
VIPS_CPLUSPLUS_API std::vector<double> to_vector(int n, double array[]);
VIPS_CPLUSPLUS_API std::vector<double> negate(std::vector<double> value);
VIPS_CPLUSPLUS_API std::vector<double> invert(std::vector<double> value);

/**
 * Whether or not VObject should take over the reference that you pass in. See
 * VObject().
 */
enum VSteal {
	NOSTEAL = 0,
	STEAL = 1
};

/**
 * A smart VipsObject pointer. It calls g_object_ref()/_unref() for you
 * automatically.
 *
 * VObjects can be null (have no value set). See is_null().
 */
class VObject {
private:
	// can be NULL, see eg. VObject()
	VipsObject *vobject;

public:
	/**
	 * Wrap a VObject around the underlying VipsObject pointer.
	 *
	 * If steal is STEAL, then the new VObject takes over the reference
	 * that you pass in.
	 */
	explicit VObject(VipsObject *new_vobject, VSteal steal = STEAL)
		: vobject(new_vobject)
	{
		// we allow NULL init, eg. "VImage a;"
		g_assert(!new_vobject ||
			VIPS_IS_OBJECT(new_vobject));

#ifdef VIPS_DEBUG_VERBOSE
		printf("VObject constructor, obj = %p, steal = %d\n",
			new_vobject, steal);
		if (new_vobject) {
			printf("   obj ");
			vips_object_print_name(VIPS_OBJECT(new_vobject));
			printf("\n");
		}
#endif /*VIPS_DEBUG_VERBOSE*/

		if (!steal && vobject) {
#ifdef VIPS_DEBUG_VERBOSE
			printf("   reffing object\n");
#endif /*VIPS_DEBUG_VERBOSE*/
			g_object_ref(vobject);
		}
	}

	VObject() : vobject(nullptr)
	{
	}

	VObject(const VObject &a) : vobject(a.vobject)
	{
		g_assert(!vobject ||
			VIPS_IS_OBJECT(vobject));

#ifdef VIPS_DEBUG_VERBOSE
		printf("VObject copy constructor, obj = %p\n",
			vobject);
		printf("   reffing object\n");
#endif /*VIPS_DEBUG_VERBOSE*/
		if (vobject)
			g_object_ref(vobject);
	}

	// assignment ... we must delete the old ref
	VObject &
	operator=(const VObject &a)
	{
#ifdef VIPS_DEBUG_VERBOSE
		printf("VObject assignment\n");
		printf("   reffing %p\n", a.vobject);
		printf("   unreffing %p\n", vobject);
#endif /*VIPS_DEBUG_VERBOSE*/

		g_assert(!vobject ||
			VIPS_IS_OBJECT(vobject));
		g_assert(!a.vobject ||
			VIPS_IS_OBJECT(a.vobject));

		// delete the old ref at the end ... otherwise "a = a;" could
		// unref before reffing again
		if (a.vobject)
			g_object_ref(a.vobject);
		if (vobject)
			g_object_unref(vobject);
		vobject = a.vobject;

		return *this;
	}

	// this mustn't be virtual: we want this class to only be a pointer,
	// no vtable allowed
	~VObject()
	{
#ifdef VIPS_DEBUG_VERBOSE
		printf("VObject destructor\n");
		printf("   unreffing %p\n", vobject);
#endif /*VIPS_DEBUG_VERBOSE*/

		g_assert(!vobject ||
			VIPS_IS_OBJECT(vobject));

		if (vobject)
			g_object_unref(vobject);
	}

	/**
	 * Return the underlying VipsObject pointer. This does not make a new
	 * reference -- you'll need to g_object_ref() the result if you want
	 * to keep it.
	 */
	VipsObject *
	get_object() const
	{
		g_assert(!vobject ||
			VIPS_IS_OBJECT(vobject));

		return vobject;
	}

	/**
	 * TRUE if this is a null VObject.
	 */
	bool
	is_null() const
	{
		return vobject == nullptr;
	}
};

class VIPS_CPLUSPLUS_API VImage;
class VIPS_CPLUSPLUS_API VInterpolate;
class VIPS_CPLUSPLUS_API VRegion;
class VIPS_CPLUSPLUS_API VSource;
class VIPS_CPLUSPLUS_API VTarget;
class VIPS_CPLUSPLUS_API VOption;

/**
 * A list of name-value pairs. Pass these to libvips operations to set
 * options. For example:
 *
 *     VImage out = in.embed(10, 10, 1000, 1000, VImage::option()
 *         ->set("extend", "background")
 *         ->set("background", 128));
 *
 * The `set` member functions will take copies (or hold references to)
 * compound objects, so you can free them immediately afterwards if necessary.
 *
 * You can get values back from operations by using the * form of the set
 * member functions. For example:
 *
 *     VImage in = VImage::new_from_file(argv[1]);
 *     int x, y;
 *     double value = in.max(VImage::option()
 *         ->set("x", &x)
 *         ->set("y", &y));
 *
 */
class VOption {
private:
	struct Pair {
		const char *name;

		// the thing we pass to and from our caller
		GValue value;

		// an input or output parameter ... we guess the direction
		// from the arg to set()
		bool input;

		// the pointer we write output values to
		union {
			bool *vbool;
			int *vint;
			double *vdouble;
			VImage *vimage;
			std::vector<double> *vvector;
			VipsBlob **vblob;
		};

		explicit Pair(const char *name) : name(name), value(G_VALUE_INIT),
										  input(false), vimage(nullptr)
		{
		}

		~Pair()
		{
			g_value_unset(&value);
		}
	};

	std::list<Pair *> options;

public:
	VOption() = default;

	virtual ~VOption();

	/**
	 * Set an input boolean option.
	 */
	VOption *
	set(const char *name, bool value);

	/**
	 * Set an input int option. This is used for enums as well, or you can
	 * use the string version.
	 */
	VOption *
	set(const char *name, int value);

	/**
	 * Set an input unsigned 64-bit integer option.
	 */
	VOption *
	set(const char *name, guint64 value);

	/**
	 * Set an input double option.
	 */
	VOption *
	set(const char *name, double value);

	/**
	 * Set an input string option.
	 *
	 * A copy is taken of the object.
	 */
	VOption *
	set(const char *name, const char *value);

	/**
	 * Set a libvips object as an option. These can be images, sources,
	 * targets, etc.
	 *
	 * A copy is taken of the object.
	 */
	VOption *
	set(const char *name, const VObject value);

	/**
	 * Set an array of integers as an input option.
	 *
	 * A copy is taken of the object.
	 */
	VOption *
	set(const char *name, std::vector<int> value);

	/**
	 * Set an array of doubles as an input option.
	 *
	 * A copy is taken of the object.
	 */
	VOption *
	set(const char *name, std::vector<double> value);

	/**
	 * Set an array of images as an input option.
	 *
	 * A copy is taken of the object.
	 */
	VOption *
	set(const char *name, std::vector<VImage> value);

	/**
	 * Set a binary object an input option. Use vips_blob_new() to make
	 * blobs.
	 *
	 * A copy is taken of the object.
	 */
	VOption *
	set(const char *name, VipsBlob *value);

	/**
	 * Set an option which will return a bool value.
	 */
	VOption *
	set(const char *name, bool *value);

	/**
	 * Set an option which will return an integer value.
	 */
	VOption *
	set(const char *name, int *value);

	/**
	 * Set an option which will return a double value.
	 */
	VOption *
	set(const char *name, double *value);

	/**
	 * Set an option which will return a reference to an image.
	 */
	VOption *
	set(const char *name, VImage *value);

	/**
	 * Set an option which will return an array of doubles.
	 */
	VOption *
	set(const char *name, std::vector<double> *value);

	/**
	 * Set an option which will return a binary object, such as an ICC
	 * profile.
	 */
	VOption *
	set(const char *name, VipsBlob **blob);

	/**
	 * Walk the set of options, setting options on the operation. This is
	 * used internally by VImage::call().
	 */
	void
	set_operation(VipsOperation *operation);

	/**
	 * Walk the set of options, fetching any output values. This is used
	 * internally by VImage::call().
	 */
	void
	get_operation(VipsOperation *operation);
};

/**
 * An image object.
 *
 * Image processing operations on images are member functions of VImage. For
 * example:
 *
 *     VImage in = VImage::new_from_file(argv[1], VImage::option()
 *         ->set("access", "sequential"));
 *     VImage out = in.embed(10, 10, 1000, 1000, VImage::option()
 *         ->set("extend", "copy"));
 *     out.write_to_file(argv[2]);
 *
 * VImage objects are smart pointers over the underlying VipsImage objects.
 * They manage the complications of GLib's ref and unref system for you.
 */
class VImage : public VObject {
public:
	using VObject::is_null;

	/**
	 * Wrap a VImage around an underlying VipsImage object.
	 *
	 * If steal is STEAL, then the VImage will take ownership of the
	 * reference to the VipsImage.
	 */
	explicit VImage(VipsImage *image, VSteal steal = STEAL)
		: VObject((VipsObject *) image, steal)
	{
	}

	/**
	 * An empty (NULL) VImage, eg. "VImage a;"
	 */
	VImage() : VObject(nullptr)
	{
	}

	/**
	 * Return the underlying VipsImage reference that this VImage holds.
	 * This does not make a new reference -- you'll need to g_object_ref()
	 * the pointer if you need it to last.
	 */
	VipsImage *
	get_image() const
	{
		return (VipsImage *) VObject::get_object();
	}

	/**
	 * Return the width of the image in pixels.
	 */
	int
	width() const
	{
		return vips_image_get_width(get_image());
	}

	/**
	 * Return the height of the image in pixels.
	 */
	int
	height() const
	{
		return vips_image_get_height(get_image());
	}

	/**
	 * Return the number of image bands.
	 */
	int
	bands() const
	{
		return vips_image_get_bands(get_image());
	}

	/**
	 * Return the image format, for example VIPS_FORMAT_UCHAR.
	 */
	VipsBandFormat
	format() const
	{
		return vips_image_get_format(get_image());
	}

	/**
	 * Return the image coding, for example VIPS_CODING_NONE.
	 */
	VipsCoding
	coding() const
	{
		return vips_image_get_coding(get_image());
	}

	/**
	 * Return the image interpretation, for example
	 * VIPS_INTERPRETATION_sRGB.
	 */
	VipsInterpretation
	interpretation() const
	{
		return vips_image_get_interpretation(get_image());
	}

	/**
	 * Try to guess the image interpretation from other fields. This is
	 * handy if the interpretation has not been set correctly.
	 */
	VipsInterpretation
	guess_interpretation() const
	{
		return vips_image_guess_interpretation(get_image());
	}

	/**
	 * The horizontal resolution in pixels per millimeter.
	 */
	double
	xres() const
	{
		return vips_image_get_xres(get_image());
	}

	/**
	 * The vertical resolution in pixels per millimeter.
	 */
	double
	yres() const
	{
		return vips_image_get_yres(get_image());
	}

	/**
	 * The horizontal offset of the origin in pixels.
	 */
	int
	xoffset() const
	{
		return vips_image_get_xoffset(get_image());
	}

	/**
	 * The vertical offset of the origin in pixels.
	 */
	int
	yoffset() const
	{
		return vips_image_get_yoffset(get_image());
	}

	/**
	 * TRUE if the image has an alpha channel.
	 */
	bool
	has_alpha() const
	{
		return vips_image_hasalpha(get_image());
	}

	/**
	 * The name of the file this image originally came from, or NULL if
	 * it's not a file image.
	 */
	const char *
	filename() const
	{
		return vips_image_get_filename(get_image());
	}

	/**
	 * Gets an VImage ready for an in-place operation, such as draw_circle().
	 * After calling this function you can both read and write the image with
	 * VIPS_IMAGE_ADDR().
	 *
	 * This method is called for you by the draw operations,
	 * there's no need to call it yourself.
	 *
	 * Since this function modifies the image, it is not thread-safe. Only call it on
	 * images which you are sure have not been shared with another thread.
	 * All in-place operations are inherently not thread-safe, so you need to take
	 * great care in any case.
	 */
	void
	inplace()
	{
		if (vips_image_inplace(this->get_image()))
			throw(VError());
	}

	/**
	 * Arrange for the underlying object to be entirely in memory, then
	 * return a pointer to the first pixel.
	 *
	 * This can take a long time and need a very large amount of RAM.
	 */
	const void *
	data() const
	{
		return vips_image_get_data(get_image());
	}

	/**
	 * Set the value of an int metadata item on an image.
	 */
	void
	set(const char *field, int value)
	{
		vips_image_set_int(this->get_image(), field, value);
	}

	/**
	 * Set the value of an int array metadata item on an image.
	 *
	 * A copy of the array is taken.
	 */
	void
	set(const char *field, int *value, int n)
	{
		vips_image_set_array_int(this->get_image(), field, value, n);
	}

	/**
	 * Set the value of an int array metadata item on an image.
	 *
	 * A copy of the array is taken.
	 */
	void
	set(const char *field, std::vector<int> value)
	{
		vips_image_set_array_int(this->get_image(), field, &value[0],
			static_cast<int>(value.size()));
	}

	/**
	 * Set the value of an double array metadata item on an image.
	 *
	 * A copy of the array is taken.
	 */
	void
	set(const char *field, double *value, int n)
	{
		vips_image_set_array_double(this->get_image(), field, value, n);
	}

	/**
	 * Set the value of an double array metadata item on an image.
	 *
	 * A copy of the array is taken.
	 */
	void
	set(const char *field, std::vector<double> value)
	{
		vips_image_set_array_double(this->get_image(), field, &value[0],
			static_cast<int>(value.size()));
	}

	/**
	 * Set the value of a double metadata item on an image.
	 */
	void
	set(const char *field, double value)
	{
		vips_image_set_double(this->get_image(), field, value);
	}

	/**
	 * Set the value of a string metadata item on an image.
	 *
	 * A copy of the string is taken.
	 */
	void
	set(const char *field, const char *value)
	{
		vips_image_set_string(this->get_image(), field, value);
	}

	/**
	 * Set the value of a binary object metadata item on an image, such as
	 * an ICC profile.
	 *
	 * When libvips no longer needs the value, it will be disposed with
	 * the free function. This can be NULL.
	 */
	void
	set(const char *field,
		VipsCallbackFn free_fn, void *data, size_t length)
	{
		vips_image_set_blob(this->get_image(), field,
			free_fn, data, length);
	}

	/**
	 * Return the GType of a metadata item, or 0 if the named item does not
	 * exist.
	 */
	GType
	get_typeof(const char *field) const
	{
		return vips_image_get_typeof(this->get_image(), field);
	}

	/**
	 * Get the value of a metadata item as an int.
	 *
	 * If the item is not of this type, an exception is thrown.
	 */
	int
	get_int(const char *field) const
	{
		int value;

		if (vips_image_get_int(this->get_image(), field, &value))
			throw(VError());

		return value;
	}

	/**
	 * Get the value of a metadata item as an array of ints. Do not free
	 * the result.
	 *
	 * If the item is not of this type, an exception is thrown.
	 */
	void
	get_array_int(const char *field, int **out, int *n) const
	{
		if (vips_image_get_array_int(this->get_image(),
				field, out, n))
			throw(VError());
	}

	/**
	 * Get the value of a metadata item as an array of ints.
	 *
	 * If the item is not of this type, an exception is thrown.
	 */
	std::vector<int>
	get_array_int(const char *field) const
	{
		int length;
		int *array;

		if (vips_image_get_array_int(this->get_image(),
				field, &array, &length))
			throw(VError());

		std::vector<int> vector(array, array + length);

		return vector;
	}

	/**
	 * Get the value of a metadata item as an array of doubles. Do not free
	 * the result.
	 *
	 * If the item is not of this type, an exception is thrown.
	 */
	void
	get_array_double(const char *field, double **out, int *n) const
	{
		if (vips_image_get_array_double(this->get_image(),
				field, out, n))
			throw(VError());
	}

	/**
	 * Get the value of a metadata item as an array of doubles.
	 *
	 * If the item is not of this type, an exception is thrown.
	 */
	std::vector<double>
	get_array_double(const char *field) const
	{
		int length;
		double *array;

		if (vips_image_get_array_double(this->get_image(),
				field, &array, &length))
			throw(VError());

		std::vector<double> vector(array, array + length);

		return vector;
	}

	/**
	 * Get the value of a metadata item as a double.
	 *
	 * If the item is not of this type, an exception is thrown.
	 */
	double
	get_double(const char *field) const
	{
		double value;

		if (vips_image_get_double(this->get_image(), field, &value))
			throw(VError());

		return value;
	}

	/**
	 * Get the value of a metadata item as a string. You must not free the
	 * result.
	 *
	 * If the item is not of this type, an exception is thrown.
	 */
	const char *
	get_string(const char *field) const
	{
		const char *value;

		if (vips_image_get_string(this->get_image(), field, &value))
			throw(VError());

		return value;
	}

	/**
	 * Get the value of a metadata item as a binary object. You must not
	 * free the result.
	 *
	 * If the item is not of this type, an exception is thrown.
	 */
	const void *
	get_blob(const char *field, size_t *length) const
	{
		const void *value;

		if (vips_image_get_blob(this->get_image(), field,
				&value, length))
			throw(VError());

		return value;
	}

	/**
	 * Remove a metadata item. This does nothing if the item does not
	 * exist.
	 */
	bool
	remove(const char *name) const
	{
		return vips_image_remove(get_image(), name);
	}

	/**
	 * Make a new VOption. Can save some typing.
	 */
	static VOption *
	option()
	{
		return new VOption();
	}

	/**
	 * Call any libvips operation, with a set of string-encoded options as
	 * well as VOption.
	 */
	static void
	call_option_string(const char *operation_name,
		const char *option_string, VOption *options = nullptr);

	/**
	 * Call any libvips operation.
	 */
	static void
	call(const char *operation_name, VOption *options = nullptr);

	/**
	 * Make a new image which, when written to, will create a large memory
	 * object. See VImage::write().
	 */
	static VImage
	new_memory()
	{
		return VImage(vips_image_new_memory());
	}

	/**
	 * Make a new VImage which, when written to, will create a temporary
	 * file on disc. See VImage::write().
	 */
	static VImage
	new_temp_file(const char *file_format = ".v")
	{
		VipsImage *image;

		if (!(image = vips_image_new_temp_file(file_format)))
			throw(VError());

		return VImage(image);
	}

	/**
	 * Create a new VImage object from a file on disc.
	 *
	 * The available options depends on the image format. See for example
	 * VImage::jpegload().
	 */
	static VImage
	new_from_file(const char *name, VOption *options = nullptr);

	/**
	 * Create a new VImage object from an area of memory containing an
	 * image encoded in some format such as JPEG.
	 *
	 * The available options depends on the image format. See for example
	 * VImage::jpegload().
	 */
	static VImage
	new_from_buffer(const void *buf, size_t len,
		const char *option_string, VOption *options = nullptr);

	/**
	 * Create a new VImage object from an area of memory containing an
	 * image encoded in some format such as JPEG.
	 *
	 * The available options depends on the image format. See for example
	 * VImage::jpegload().
	 */
	static VImage
	new_from_buffer(const std::string &buf,
		const char *option_string, VOption *options = nullptr);

	/**
	 * Create a new VImage object from a generic source object.
	 *
	 * The available options depends on the image format. See for example
	 * VImage::jpegload().
	 */
	static VImage
	new_from_source(VSource source,
		const char *option_string, VOption *options = nullptr);

	/**
	 * Create a new VImage object from an area of memory containing a
	 * C-style array.
	 */
	static VImage
	new_from_memory(const void *data, size_t size,
		int width, int height, int bands, VipsBandFormat format)
	{
		VipsImage *image;

		if (!(image = vips_image_new_from_memory(data, size,
				  width, height, bands, format)))
			throw(VError());

		return VImage(image);
	}

	/**
	 * Create a new VImage object from an area of memory containing a
	 * C-style array.
	 * The VImage makes a copy of @data.
	 */
	static VImage
	new_from_memory_copy(const void *data, size_t size,
		int width, int height, int bands, VipsBandFormat format)
	{
		VipsImage *image;

		if (!(image = vips_image_new_from_memory_copy(data, size,
				  width, height, bands, format)))
			throw(VError());

		return VImage(image);
	}

	/**
	 * Create a new VImage object from an area of memory containing a
	 * C-style array.
	 *
	 * The VImage steals ownership of @data and will free() it when it
	 * goes out of scope.
	 */
	static VImage
	new_from_memory_steal(const void *data, size_t size,
		int width, int height, int bands, VipsBandFormat format);

	/**
	 * Create a matrix image of a specified size. All elements will be
	 * zero.
	 */
	static VImage
	new_matrix(int width, int height);

	/**
	 * Create a matrix image of a specified size, initialized from the
	 * array.
	 */
	static VImage
	new_matrix(int width, int height, double *array, int size)
	{
		VipsImage *image;

		if (!(image = vips_image_new_matrix_from_array(width, height,
				  array, size)))
			throw(VError());

		return VImage(image);
	}

	/**
	 * Create a matrix image of a specified size, initialized from the
	 * function parameters.
	 */
	static VImage
	new_matrixv(int width, int height, ...);

	/**
	 * Make a new image of the same size and type as self, but with each
	 * pixel initialized with the constant.
	 */
	VImage
	new_from_image(std::vector<double> pixel) const
	{
		VipsImage *image;

		if (!(image = vips_image_new_from_image(this->get_image(),
				  &pixel[0], static_cast<int>(pixel.size()))))
			throw(VError());

		return VImage(image);
	}

	/**
	 * Make a new image of the same size and type as self, but with each
	 * pixel initialized with the constant.
	 */
	VImage
	new_from_image(double pixel) const
	{
		return new_from_image(to_vectorv(1, pixel));
	}

	/**
	 * This operation allocates memory, renders self into it, builds a new
	 * image around the memory area, and returns that.
	 *
	 * If the image is already a simple area of memory, it does nothing.
	 *
	 * Call this before using the draw operations to make sure you have a
	 * memory image that can be modified.
	 *
	 * VImage::copy() adds a null "copy" node to a pipeline. Use that
	 * instead if you want to change metadata and not pixels.
	 */
	VImage
	copy_memory() const
	{
		VipsImage *image;

		if (!(image = vips_image_copy_memory(this->get_image())))
			throw(VError());

		return VImage(image);
	}

	/**
	 * Write self to out. See VImage::new_memory() etc.
	 */
	VImage write(VImage out) const;

	/**
	 * Write an image to a file.
	 *
	 * The available options depends on the file format. See
	 * VImage::jpegsave(), for example.
	 */
	void write_to_file(const char *name, VOption *options = nullptr) const;

	/**
	 * Write an image to an area of memory in the specified format. You
	 * must free() the memory area once you are done with it.
	 *
	 * For example:
	 *
	 *     void *buf;
	 *     size_t size;
	 *     image.write_to_buffer(".jpg", &buf, &size);
	 *
	 * The available options depends on the file format. See
	 * VImage::jpegsave(), for example.
	 */
	void write_to_buffer(const char *suffix, void **buf, size_t *size,
		VOption *options = nullptr) const;

	/**
	 * Write an image to a generic target object in the specified format.
	 *
	 * The available options depends on the file format. See
	 * VImage::jpegsave(), for example.
	 */
	void write_to_target(const char *suffix, VTarget target,
		VOption *options = nullptr) const;

	/**
	 * Write an image to an area of memory as a C-style array.
	 */
	void *
	write_to_memory(size_t *size) const
	{
		void *result;

		if (!(result = vips_image_write_to_memory(this->get_image(),
				  size)))
			throw(VError());

		return result;
	}

	/**
	 * Acquire an unprepared VRegion.
	 */
	VRegion
	region() const;

	/**
	 * Acquire VRegion covering the given VipsRect.
	 */
	VRegion
	region(VipsRect *rect) const;

	/**
	 * Acquire VRegion covering the given coordinates.
	 */
	VRegion
	region(int left, int top, int width, int height) const;

	/**
	 * Apply a linear transform to an image. For every pixel,
	 *
	 *     out = in * a + b
	 */
	VImage
	linear(double a, double b, VOption *options = nullptr) const
	{
		return this->linear(to_vector(a), to_vector(b),
			options);
	}

	/**
	 * Apply a linear transform to an image. For every pixel,
	 *
	 *     out = in * a + b
	 */
	VImage
	linear(std::vector<double> a, double b, VOption *options = nullptr) const
	{
		return this->linear(a, to_vector(b), options);
	}

	/**
	 * Apply a linear transform to an image. For every pixel,
	 *
	 *     out = in * a + b
	 */
	VImage
	linear(double a, std::vector<double> b, VOption *options = nullptr) const
	{
		return this->linear(to_vector(a), b, options);
	}

	/**
	 * Split a many-band image into an array of one-band images.
	 */
	std::vector<VImage> bandsplit(VOption *options = nullptr) const;

	/**
	 * Join two images bandwise.
	 */
	VImage bandjoin(VImage other, VOption *options = nullptr) const;

	/**
	 * Append a band to an image, with each element initialized to the
	 * constant value.
	 */
	VImage
	bandjoin(double other, VOption *options = nullptr) const
	{
		return bandjoin(to_vector(other), options);
	}

	/**
	 * Append a series of bands to an image, with each element initialized
	 * to the constant values.
	 */
	VImage
	bandjoin(std::vector<double> other, VOption *options = nullptr) const
	{
		return bandjoin_const(other, options);
	}

	/**
	 * Composite other on top of self using the specified blending mode.
	 */
	VImage composite(VImage other, VipsBlendMode mode,
		VOption *options = nullptr) const;

	/**
	 * Find the position of the image minimum as (x, y).
	 */
	std::complex<double> minpos(VOption *options = nullptr) const;

	/**
	 * Find the position of the image maximum as (x, y).
	 */
	std::complex<double> maxpos(VOption *options = nullptr) const;

	/**
	 * Flip the image left-right.
	 */
	VImage
	fliphor(VOption *options = nullptr) const
	{
		return flip(VIPS_DIRECTION_HORIZONTAL, options);
	}

	/**
	 * Flip the image top-bottom.
	 */
	VImage
	flipver(VOption *options = nullptr) const
	{
		return flip(VIPS_DIRECTION_VERTICAL, options);
	}

	/**
	 * Rotate the image by 90 degrees clockwise.
	 */
	VImage
	rot90(VOption *options = nullptr) const
	{
		return rot(VIPS_ANGLE_D90, options);
	}

	/**
	 * Rotate the image by 180 degrees.
	 */
	VImage
	rot180(VOption *options = nullptr) const
	{
		return rot(VIPS_ANGLE_D180, options);
	}

	/**
	 * Rotate the image by 270 degrees clockwise.
	 */
	VImage
	rot270(VOption *options = nullptr) const
	{
		return rot(VIPS_ANGLE_D270, options);
	}

	/**
	 * Dilate the image with the specified structuring element, see
	 * VImage::new_matrix(). Structuring element values can be 0 for
	 * black, 255 for white and 128 for don't care. See VImage::morph().
	 */
	VImage
	dilate(VImage mask, VOption *options = nullptr) const
	{
		return morph(mask, VIPS_OPERATION_MORPHOLOGY_DILATE,
			options);
	}

	/**
	 * Erode the image with the specified structuring element, see
	 * VImage::new_matrix(). Structuring element values can be 0 for
	 * black, 255 for white and 128 for don't care. See VImage::morph().
	 */
	VImage
	erode(VImage mask, VOption *options = nullptr) const
	{
		return morph(mask, VIPS_OPERATION_MORPHOLOGY_ERODE,
			options);
	}

	/**
	 * A median filter of the specified size. See VImage::rank().
	 */
	VImage
	median(int size = 3, VOption *options = nullptr) const
	{
		return rank(size, size, (size * size) / 2, options);
	}

	/**
	 * Convert to integer, rounding down.
	 */
	VImage
	floor(VOption *options = nullptr) const
	{
		return round(VIPS_OPERATION_ROUND_FLOOR, options);
	}

	/**
	 * Convert to integer, rounding up.
	 */
	VImage
	ceil(VOption *options = nullptr) const
	{
		return round(VIPS_OPERATION_ROUND_CEIL, options);
	}

	/**
	 * Convert to integer, rounding to nearest.
	 */
	VImage
	rint(VOption *options = nullptr) const
	{
		return round(VIPS_OPERATION_ROUND_RINT, options);
	}

	/**
	 * AND all bands of an image together to make a one-band image. Useful
	 * with the relational operators, for example:
	 *
	 *     VImage mask = (in > 128).bandand()
	 */
	VImage
	bandand(VOption *options = nullptr) const
	{
		return bandbool(VIPS_OPERATION_BOOLEAN_AND, options);
	}

	/**
	 * OR all bands of an image together to make a one-band image. Useful
	 * with the relational operators, for example:
	 *
	 *     VImage mask = (in > 128).bandand()
	 */
	VImage
	bandor(VOption *options = nullptr) const
	{
		return bandbool(VIPS_OPERATION_BOOLEAN_OR, options);
	}

	/**
	 * EOR all bands of an image together to make a one-band image. Useful
	 * with the relational operators, for example:
	 *
	 *     VImage mask = (in > 128).bandand()
	 */
	VImage
	bandeor(VOption *options = nullptr) const
	{
		return bandbool(VIPS_OPERATION_BOOLEAN_EOR, options);
	}

	/**
	 * Return the real part of a complex image.
	 */
	VImage
	real(VOption *options = nullptr) const
	{
		return complexget(VIPS_OPERATION_COMPLEXGET_REAL, options);
	}

	/**
	 * Return the imaginary part of a complex image.
	 */
	VImage
	imag(VOption *options = nullptr) const
	{
		return complexget(VIPS_OPERATION_COMPLEXGET_IMAG, options);
	}

	/**
	 * Convert a complex image to polar coordinates.
	 */
	VImage
	polar(VOption *options = nullptr) const
	{
		return complex(VIPS_OPERATION_COMPLEX_POLAR, options);
	}

	/**
	 * Convert a complex image to rectangular coordinates.
	 */
	VImage
	rect(VOption *options = nullptr) const
	{
		return complex(VIPS_OPERATION_COMPLEX_RECT, options);
	}

	/**
	 * Find the complex conjugate.
	 */
	VImage
	conj(VOption *options = nullptr) const
	{
		return complex(VIPS_OPERATION_COMPLEX_CONJ, options);
	}

	/**
	 * Find the sine of each pixel. Angles are in degrees.
	 */
	VImage
	sin(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_SIN, options);
	}

	/**
	 * Find the cosine of each pixel. Angles are in degrees.
	 */
	VImage
	cos(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_COS, options);
	}

	/**
	 * Find the tangent of each pixel. Angles are in degrees.
	 */
	VImage
	tan(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_TAN, options);
	}

	/**
	 * Find the arc sine of each pixel. Angles are in degrees.
	 */
	VImage
	asin(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_ASIN, options);
	}

	/**
	 * Find the arc cosine of each pixel. Angles are in degrees.
	 */
	VImage
	acos(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_ACOS, options);
	}

	/**
	 * Find the arc tangent of each pixel. Angles are in degrees.
	 */
	VImage
	atan(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_ATAN, options);
	}

	/**
	 * Find the hyperbolic sine of each pixel. Angles are in degrees.
	 */
	VImage
	sinh(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_SINH, options);
	}

	/**
	 * Find the hyperbolic cosine of each pixel. Angles are in degrees.
	 */
	VImage
	cosh(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_COSH, options);
	}

	/**
	 * Find the hyperbolic tangent of each pixel. Angles are in degrees.
	 */
	VImage
	tanh(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_TANH, options);
	}

	/**
	 * Find the hyperbolic arc sine of each pixel. Angles are in radians.
	 */
	VImage
	asinh(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_ASINH, options);
	}

	/**
	 * Find the hyperbolic arc cosine of each pixel. Angles are in radians.
	 */
	VImage
	acosh(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_ACOSH, options);
	}

	/**
	 * Find the hyperbolic arc tangent of each pixel. Angles are in radians.
	 */
	VImage
	atanh(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_ATANH, options);
	}

	/**
	 * Find the natural log of each pixel.
	 */
	VImage
	log(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_LOG, options);
	}

	/**
	 * Find the base 10 log of each pixel.
	 */
	VImage
	log10(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_LOG10, options);
	}

	/**
	 * Find e to the power of each pixel.
	 */
	VImage
	exp(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_EXP, options);
	}

	/**
	 * Find 10 to the power of each pixel.
	 */
	VImage
	exp10(VOption *options = nullptr) const
	{
		return math(VIPS_OPERATION_MATH_EXP10, options);
	}

	/**
	 * Raise each pixel to the specified power.
	 */
	VImage
	pow(VImage other, VOption *options = nullptr) const
	{
		return math2(other, VIPS_OPERATION_MATH2_POW, options);
	}

	/**
	 * Raise each pixel to the specified power.
	 */
	VImage
	pow(double other, VOption *options = nullptr) const
	{
		return math2_const(VIPS_OPERATION_MATH2_POW,
			to_vector(other), options);
	}

	/**
	 * Raise each pixel to the specified power.
	 */
	VImage
	pow(std::vector<double> other, VOption *options = nullptr) const
	{
		return math2_const(VIPS_OPERATION_MATH2_POW,
			other, options);
	}

	/**
	 * Raise other to the power of each pixel (the opposite of pow).
	 */
	VImage
	wop(VImage other, VOption *options = nullptr) const
	{
		return math2(other, VIPS_OPERATION_MATH2_WOP, options);
	}

	/**
	 * Raise the constant to the power of each pixel (the opposite of pow).
	 */
	VImage
	wop(double other, VOption *options = nullptr) const
	{
		return math2_const(VIPS_OPERATION_MATH2_WOP,
			to_vector(other), options);
	}

	/**
	 * Raise the constant to the power of each pixel (the opposite of pow).
	 */
	VImage
	wop(std::vector<double> other, VOption *options = nullptr) const
	{
		return math2_const(VIPS_OPERATION_MATH2_WOP,
			other, options);
	}

	/**
	 * Calculate atan2 of each pixel.
	 */
	VImage
	atan2(VImage other, VOption *options = nullptr) const
	{
		return math2(other, VIPS_OPERATION_MATH2_ATAN2, options);
	}

	/**
	 * Calculate atan2 of each pixel.
	 */
	VImage
	atan2(double other, VOption *options = nullptr) const
	{
		return math2_const(VIPS_OPERATION_MATH2_ATAN2,
			to_vector(other), options);
	}

	/**
	 * Calculate atan2 of each pixel.
	 */
	VImage
	atan2(std::vector<double> other, VOption *options = nullptr) const
	{
		return math2_const(VIPS_OPERATION_MATH2_ATAN2,
			other, options);
	}

	/**
	 * Use self as a conditional image (not zero meaning TRUE) to pick
	 * pixels from th (then) or el (else).
	 */
	VImage
	ifthenelse(std::vector<double> th, VImage el,
		VOption *options = nullptr) const
	{
		return ifthenelse(el.new_from_image(th), el, options);
	}

	/**
	 * Use self as a conditional image (not zero meaning TRUE) to pick
	 * pixels from th (then) or el (else).
	 */
	VImage
	ifthenelse(VImage th, std::vector<double> el,
		VOption *options = nullptr) const
	{
		return ifthenelse(th, th.new_from_image(el), options);
	}

	/**
	 * Use self as a conditional image (not zero meaning TRUE) to pick
	 * pixels from th (then) or el (else).
	 */
	VImage
	ifthenelse(std::vector<double> th, std::vector<double> el,
		VOption *options = nullptr) const
	{
		return ifthenelse(new_from_image(th), new_from_image(el),
			options);
	}

	/**
	 * Use self as a conditional image (not zero meaning TRUE) to pick
	 * pixels from th (then) or el (else).
	 */
	VImage
	ifthenelse(double th, VImage el, VOption *options = nullptr) const
	{
		return ifthenelse(to_vector(th), el, options);
	}

	/**
	 * Use self as a conditional image (not zero meaning TRUE) to pick
	 * pixels from th (then) or el (else).
	 */
	VImage
	ifthenelse(VImage th, double el, VOption *options = nullptr) const
	{
		return ifthenelse(th, to_vector(el), options);
	}

	/**
	 * Use self as a conditional image (not zero meaning TRUE) to pick
	 * pixels from th (then) or el (else).
	 */
	VImage
	ifthenelse(double th, double el, VOption *options = nullptr) const
	{
		return ifthenelse(to_vector(th), to_vector(el),
			options);
	}

	/**
	 * Draw a circle on an image.
	 *
	 * **Optional parameters**
	 *   - **fill** -- Draw a solid object, bool.
	 *
	 * @param ink Color for pixels.
	 * @param cx Centre of draw_circle.
	 * @param cy Centre of draw_circle.
	 * @param radius Radius in pixels.
	 * @param options Set of options.
	 */
	void
	draw_circle(double ink, int cx, int cy, int radius, VOption *options = nullptr) const
	{
		return draw_circle(to_vector(ink), cx, cy, radius, options);
	}

	/**
	 * Draw a line on an image.
	 * @param ink Color for pixels.
	 * @param x1 Start of draw_line.
	 * @param y1 Start of draw_line.
	 * @param x2 End of draw_line.
	 * @param y2 End of draw_line.
	 * @param options Set of options.
	 */
	void
	draw_line(double ink, int x1, int y1, int x2, int y2, VOption *options = nullptr) const
	{
		return draw_line(to_vector(ink), x1, y1, x2, y2, options);
	}

	/**
	 * Paint a rectangle on an image.
	 *
	 * **Optional parameters**
	 *   - **fill** -- Draw a solid object, bool.
	 *
	 * @param ink Color for pixels.
	 * @param left Rect to fill.
	 * @param top Rect to fill.
	 * @param width Rect to fill.
	 * @param height Rect to fill.
	 * @param options Set of options.
	 */
	void
	draw_rect(double ink, int left, int top, int width, int height, VOption *options = nullptr) const
	{
		return draw_rect(to_vector(ink), left, top, width, height, options);
	}

	/**
	 * Paint a single pixel on an image.
	 *
	 * @param ink Color for pixels.
	 * @param x Point to paint.
	 * @param y Point to paint.
	 */
	void
	draw_point(double ink, int x, int y, VOption *options = nullptr) const
	{
		return draw_rect(ink, x, y, 1, 1, options);
	}

	/**
	 * Paint a single pixel on an image.
	 *
	 * @param ink Color for pixels.
	 * @param x Point to paint.
	 * @param y Point to paint.
	 */
	void
	draw_point(std::vector<double> ink, int x, int y, VOption *options = nullptr) const
	{
		return draw_rect(ink, x, y, 1, 1, options);
	}

	/**
	 * Flood-fill an area.
	 *
	 * **Optional parameters**
	 *   - **test** -- Test pixels in this image, VImage.
	 *   - **equal** -- DrawFlood while equal to edge, bool.
	 *
	 * @param ink Color for pixels.
	 * @param x DrawFlood start point.
	 * @param y DrawFlood start point.
	 * @param options Set of options.
	 */
	void
	draw_flood(double ink, int x, int y, VOption *options = nullptr) const
	{
		return draw_flood(to_vector(ink), x, y, options);
	}

	/**
	 * Draw a mask on an image.
	 * @param ink Color for pixels.
	 * @param mask Mask of pixels to draw.
	 * @param x Draw mask here.
	 * @param y Draw mask here.
	 * @param options Set of options.
	 */
	void
	draw_mask(double ink, VImage mask, int x, int y, VOption *options = nullptr) const
	{
		return draw_mask(to_vector(ink), mask, x, y, options);
	}

	/**
	 * Generate thumbnail from buffer.
	 *
	 * **Optional parameters**
	 *   - **option_string** -- Options that are passed on to the underlying loader, const char *.
	 *   - **height** -- Size to this height, int.
	 *   - **size** -- Only upsize, only downsize, or both, VipsSize.
	 *   - **no_rotate** -- Don't use orientation tags to rotate image upright, bool.
	 *   - **crop** -- Reduce to fill target rectangle, then crop, VipsInteresting.
	 *   - **linear** -- Reduce in linear light, bool.
	 *   - **import_profile** -- Fallback import profile, const char *.
	 *   - **export_profile** -- Fallback export profile, const char *.
	 *   - **intent** -- Rendering intent, VipsIntent.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *
	 * @param buf Buffer to load from.
	 * @param len Size of buffer.
	 * @param width Size to this width.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage thumbnail_buffer(void *buf, size_t len, int width, VOption *options = nullptr);

	// Operator overloads

	VImage operator[](int index) const;

	std::vector<double> operator()(int x, int y) const;

	friend VIPS_CPLUSPLUS_API VImage
	operator+(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator+(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator+(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator+(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator+(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage &
	operator+=(VImage &a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator+=(VImage &a, const double b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator+=(VImage &a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator-(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator-(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator-(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator-(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator-(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage &
	operator-=(VImage &a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator-=(VImage &a, const double b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator-=(VImage &a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator-(const VImage a);

	friend VIPS_CPLUSPLUS_API VImage
	operator*(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator*(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator*(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator*(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator*(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage &
	operator*=(VImage &a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator*=(VImage &a, const double b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator*=(VImage &a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator/(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator/(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator/(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator/(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator/(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage &
	operator/=(VImage &a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator/=(VImage &a, const double b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator/=(VImage &a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator%(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator%(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator%(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage &
	operator%=(VImage &a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator%=(VImage &a, const double b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator%=(VImage &a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator<(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator<(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator<(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator<(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator<(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator<=(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator<=(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator<=(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator<=(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator<=(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator>(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator>(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator>(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator>(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator>(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator>=(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator>=(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator>=(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator>=(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator>=(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator==(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator==(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator==(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator==(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator==(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator!=(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator!=(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator!=(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator!=(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator!=(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator&(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator&(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator&(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator&(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator&(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage &
	operator&=(VImage &a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator&=(VImage &a, const double b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator&=(VImage &a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator|(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator|(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator|(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator|(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator|(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage &
	operator|=(VImage &a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator|=(VImage &a, const double b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator|=(VImage &a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator^(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator^(const double a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator^(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator^(const std::vector<double> a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator^(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage &
	operator^=(VImage &a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator^=(VImage &a, const double b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator^=(VImage &a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator<<(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator<<(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator<<(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage &
	operator<<=(VImage &a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator<<=(VImage &a, const double b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator<<=(VImage &a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage
	operator>>(const VImage a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage
	operator>>(const VImage a, const double b);
	friend VIPS_CPLUSPLUS_API VImage
	operator>>(const VImage a, const std::vector<double> b);

	friend VIPS_CPLUSPLUS_API VImage &
	operator>>=(VImage &a, const VImage b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator>>=(VImage &a, const double b);
	friend VIPS_CPLUSPLUS_API VImage &
	operator>>=(VImage &a, const std::vector<double> b);

	// Compat operations

	static VImage
	new_from_memory_steal(void *data, size_t size,
		int width, int height, int bands, VipsBandFormat format);

	/**
	 * Write raw image to file descriptor.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param fd File descriptor to write to.
	 * @param options Set of options.
	 */
	G_DEPRECATED_FOR(rawsave_target)
	void rawsave_fd(int fd, VOption *options = nullptr) const;

	/* Automatically generated members.
	 *
	 * Rebuild with:
	 *
	 * 	meson compile -Cbuild vips-operators-header
	 *
	 * Then delete from here to the end of the class and paste in
	 * vips-operators.h. We could just #include "vips-operators.h", but
	 * that confuses doxygen.
	 */

	// headers for vips operations
	// this file is generated automatically, do not edit!

	/**
	 * Transform lch to cmc.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage CMC2LCh(VOption *options = nullptr) const;

	/**
	 * Transform cmyk to xyz.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage CMYK2XYZ(VOption *options = nullptr) const;

	/**
	 * Transform hsv to srgb.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage HSV2sRGB(VOption *options = nullptr) const;

	/**
	 * Transform lch to cmc.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage LCh2CMC(VOption *options = nullptr) const;

	/**
	 * Transform lch to lab.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage LCh2Lab(VOption *options = nullptr) const;

	/**
	 * Transform lab to lch.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage Lab2LCh(VOption *options = nullptr) const;

	/**
	 * Transform float lab to labq coding.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage Lab2LabQ(VOption *options = nullptr) const;

	/**
	 * Transform float lab to signed short.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage Lab2LabS(VOption *options = nullptr) const;

	/**
	 * Transform cielab to xyz.
	 *
	 * **Optional parameters**
	 *   - **temp** -- Color temperature, std::vector<double>.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage Lab2XYZ(VOption *options = nullptr) const;

	/**
	 * Unpack a labq image to float lab.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage LabQ2Lab(VOption *options = nullptr) const;

	/**
	 * Unpack a labq image to short lab.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage LabQ2LabS(VOption *options = nullptr) const;

	/**
	 * Convert a labq image to srgb.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage LabQ2sRGB(VOption *options = nullptr) const;

	/**
	 * Transform signed short lab to float.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage LabS2Lab(VOption *options = nullptr) const;

	/**
	 * Transform short lab to labq coding.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage LabS2LabQ(VOption *options = nullptr) const;

	/**
	 * Transform xyz to cmyk.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage XYZ2CMYK(VOption *options = nullptr) const;

	/**
	 * Transform xyz to lab.
	 *
	 * **Optional parameters**
	 *   - **temp** -- Colour temperature, std::vector<double>.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage XYZ2Lab(VOption *options = nullptr) const;

	/**
	 * Transform xyz to yxy.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage XYZ2Yxy(VOption *options = nullptr) const;

	/**
	 * Transform xyz to scrgb.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage XYZ2scRGB(VOption *options = nullptr) const;

	/**
	 * Transform yxy to xyz.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage Yxy2XYZ(VOption *options = nullptr) const;

	/**
	 * Absolute value of an image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage abs(VOption *options = nullptr) const;

	/**
	 * Add two images.
	 * @param right Right-hand image argument.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage add(VImage right, VOption *options = nullptr) const;

	/**
	 * Append an alpha channel.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage addalpha(VOption *options = nullptr) const;

	/**
	 * Affine transform of an image.
	 *
	 * **Optional parameters**
	 *   - **interpolate** -- Interpolate pixels with this, VInterpolate.
	 *   - **oarea** -- Area of output to generate, std::vector<int>.
	 *   - **odx** -- Horizontal output displacement, double.
	 *   - **ody** -- Vertical output displacement, double.
	 *   - **idx** -- Horizontal input displacement, double.
	 *   - **idy** -- Vertical input displacement, double.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **premultiplied** -- Images have premultiplied alpha, bool.
	 *   - **extend** -- How to generate the extra pixels, VipsExtend.
	 *
	 * @param matrix Transformation matrix.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage affine(std::vector<double> matrix, VOption *options = nullptr) const;

	/**
	 * Load an analyze6 image.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage analyzeload(const char *filename, VOption *options = nullptr);

	/**
	 * Join an array of images.
	 *
	 * **Optional parameters**
	 *   - **across** -- Number of images across grid, int.
	 *   - **shim** -- Pixels between images, int.
	 *   - **background** -- Colour for new pixels, std::vector<double>.
	 *   - **halign** -- Align on the left, centre or right, VipsAlign.
	 *   - **valign** -- Align on the top, centre or bottom, VipsAlign.
	 *   - **hspacing** -- Horizontal spacing between images, int.
	 *   - **vspacing** -- Vertical spacing between images, int.
	 *
	 * @param in Array of input images.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage arrayjoin(std::vector<VImage> in, VOption *options = nullptr);

	/**
	 * Autorotate image by exif tag.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage autorot(VOption *options = nullptr) const;

	/**
	 * Find image average.
	 * @param options Set of options.
	 * @return Output value.
	 */
	double avg(VOption *options = nullptr) const;

	/**
	 * Boolean operation across image bands.
	 * @param boolean Boolean to perform.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage bandbool(VipsOperationBoolean boolean, VOption *options = nullptr) const;

	/**
	 * Fold up x axis into bands.
	 *
	 * **Optional parameters**
	 *   - **factor** -- Fold by this factor, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage bandfold(VOption *options = nullptr) const;

	/**
	 * Bandwise join a set of images.
	 * @param in Array of input images.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage bandjoin(std::vector<VImage> in, VOption *options = nullptr);

	/**
	 * Append a constant band to an image.
	 * @param c Array of constants to add.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage bandjoin_const(std::vector<double> c, VOption *options = nullptr) const;

	/**
	 * Band-wise average.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage bandmean(VOption *options = nullptr) const;

	/**
	 * Band-wise rank of a set of images.
	 *
	 * **Optional parameters**
	 *   - **index** -- Select this band element from sorted list, int.
	 *
	 * @param in Array of input images.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage bandrank(std::vector<VImage> in, VOption *options = nullptr);

	/**
	 * Unfold image bands into x axis.
	 *
	 * **Optional parameters**
	 *   - **factor** -- Unfold by this factor, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage bandunfold(VOption *options = nullptr) const;

	/**
	 * Make a black image.
	 *
	 * **Optional parameters**
	 *   - **bands** -- Number of bands in image, int.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage black(int width, int height, VOption *options = nullptr);

	/**
	 * Boolean operation on two images.
	 * @param right Right-hand image argument.
	 * @param boolean Boolean to perform.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage boolean(VImage right, VipsOperationBoolean boolean, VOption *options = nullptr) const;

	/**
	 * Boolean operations against a constant.
	 * @param boolean Boolean to perform.
	 * @param c Array of constants.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage boolean_const(VipsOperationBoolean boolean, std::vector<double> c, VOption *options = nullptr) const;

	/**
	 * Build a look-up table.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage buildlut(VOption *options = nullptr) const;

	/**
	 * Byteswap an image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage byteswap(VOption *options = nullptr) const;

	/**
	 * Cache an image.
	 *
	 * **Optional parameters**
	 *   - **max_tiles** -- Maximum number of tiles to cache, int.
	 *   - **tile_height** -- Tile height in pixels, int.
	 *   - **tile_width** -- Tile width in pixels, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	G_DEPRECATED
	VImage cache(VOption *options = nullptr) const;

	/**
	 * Canny edge detector.
	 *
	 * **Optional parameters**
	 *   - **sigma** -- Sigma of Gaussian, double.
	 *   - **precision** -- Convolve with this precision, VipsPrecision.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage canny(VOption *options = nullptr) const;

	/**
	 * Use pixel values to pick cases from an array of images.
	 * @param cases Array of case images.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage case_image(std::vector<VImage> cases, VOption *options = nullptr) const;

	/**
	 * Cast an image.
	 *
	 * **Optional parameters**
	 *   - **shift** -- Shift integer values up and down, bool.
	 *
	 * @param format Format to cast to.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage cast(VipsBandFormat format, VOption *options = nullptr) const;

	/**
	 * Clamp values of an image.
	 *
	 * **Optional parameters**
	 *   - **min** -- Minimum value, double.
	 *   - **max** -- Maximum value, double.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage clamp(VOption *options = nullptr) const;

	/**
	 * Convert to a new colorspace.
	 *
	 * **Optional parameters**
	 *   - **source_space** -- Source color space, VipsInterpretation.
	 *
	 * @param space Destination color space.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage colourspace(VipsInterpretation space, VOption *options = nullptr) const;

	/**
	 * Convolve with rotating mask.
	 *
	 * **Optional parameters**
	 *   - **times** -- Rotate and convolve this many times, int.
	 *   - **angle** -- Rotate mask by this much between convolutions, VipsAngle45.
	 *   - **combine** -- Combine convolution results like this, VipsCombine.
	 *   - **precision** -- Convolve with this precision, VipsPrecision.
	 *   - **layers** -- Use this many layers in approximation, int.
	 *   - **cluster** -- Cluster lines closer than this in approximation, int.
	 *
	 * @param mask Input matrix image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage compass(VImage mask, VOption *options = nullptr) const;

	/**
	 * Perform a complex operation on an image.
	 * @param cmplx Complex to perform.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage complex(VipsOperationComplex cmplx, VOption *options = nullptr) const;

	/**
	 * Complex binary operations on two images.
	 * @param right Right-hand image argument.
	 * @param cmplx Binary complex operation to perform.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage complex2(VImage right, VipsOperationComplex2 cmplx, VOption *options = nullptr) const;

	/**
	 * Form a complex image from two real images.
	 * @param right Right-hand image argument.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage complexform(VImage right, VOption *options = nullptr) const;

	/**
	 * Get a component from a complex image.
	 * @param get Complex to perform.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage complexget(VipsOperationComplexget get, VOption *options = nullptr) const;

	/**
	 * Blend an array of images with an array of blend modes.
	 *
	 * **Optional parameters**
	 *   - **x** -- Array of x coordinates to join at, std::vector<int>.
	 *   - **y** -- Array of y coordinates to join at, std::vector<int>.
	 *   - **compositing_space** -- Composite images in this colour space, VipsInterpretation.
	 *   - **premultiplied** -- Images have premultiplied alpha, bool.
	 *
	 * @param in Array of input images.
	 * @param mode Array of VipsBlendMode to join with.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage composite(std::vector<VImage> in, std::vector<int> mode, VOption *options = nullptr);

	/**
	 * Blend a pair of images with a blend mode.
	 *
	 * **Optional parameters**
	 *   - **x** -- x position of overlay, int.
	 *   - **y** -- y position of overlay, int.
	 *   - **compositing_space** -- Composite images in this colour space, VipsInterpretation.
	 *   - **premultiplied** -- Images have premultiplied alpha, bool.
	 *
	 * @param overlay Overlay image.
	 * @param mode VipsBlendMode to join with.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage composite2(VImage overlay, VipsBlendMode mode, VOption *options = nullptr) const;

	/**
	 * Convolution operation.
	 *
	 * **Optional parameters**
	 *   - **precision** -- Convolve with this precision, VipsPrecision.
	 *   - **layers** -- Use this many layers in approximation, int.
	 *   - **cluster** -- Cluster lines closer than this in approximation, int.
	 *
	 * @param mask Input matrix image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage conv(VImage mask, VOption *options = nullptr) const;

	/**
	 * Approximate integer convolution.
	 *
	 * **Optional parameters**
	 *   - **layers** -- Use this many layers in approximation, int.
	 *   - **cluster** -- Cluster lines closer than this in approximation, int.
	 *
	 * @param mask Input matrix image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage conva(VImage mask, VOption *options = nullptr) const;

	/**
	 * Approximate separable integer convolution.
	 *
	 * **Optional parameters**
	 *   - **layers** -- Use this many layers in approximation, int.
	 *
	 * @param mask Input matrix image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage convasep(VImage mask, VOption *options = nullptr) const;

	/**
	 * Float convolution operation.
	 * @param mask Input matrix image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage convf(VImage mask, VOption *options = nullptr) const;

	/**
	 * Int convolution operation.
	 * @param mask Input matrix image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage convi(VImage mask, VOption *options = nullptr) const;

	/**
	 * Separable convolution operation.
	 *
	 * **Optional parameters**
	 *   - **precision** -- Convolve with this precision, VipsPrecision.
	 *   - **layers** -- Use this many layers in approximation, int.
	 *   - **cluster** -- Cluster lines closer than this in approximation, int.
	 *
	 * @param mask Input matrix image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage convsep(VImage mask, VOption *options = nullptr) const;

	/**
	 * Copy an image.
	 *
	 * **Optional parameters**
	 *   - **width** -- Image width in pixels, int.
	 *   - **height** -- Image height in pixels, int.
	 *   - **bands** -- Number of bands in image, int.
	 *   - **format** -- Pixel format in image, VipsBandFormat.
	 *   - **coding** -- Pixel coding, VipsCoding.
	 *   - **interpretation** -- Pixel interpretation, VipsInterpretation.
	 *   - **xres** -- Horizontal resolution in pixels/mm, double.
	 *   - **yres** -- Vertical resolution in pixels/mm, double.
	 *   - **xoffset** -- Horizontal offset of origin, int.
	 *   - **yoffset** -- Vertical offset of origin, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage copy(VOption *options = nullptr) const;

	/**
	 * Count lines in an image.
	 * @param direction Countlines left-right or up-down.
	 * @param options Set of options.
	 * @return Number of lines.
	 */
	double countlines(VipsDirection direction, VOption *options = nullptr) const;

	/**
	 * Extract an area from an image.
	 * @param left Left edge of extract area.
	 * @param top Top edge of extract area.
	 * @param width Width of extract area.
	 * @param height Height of extract area.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage crop(int left, int top, int width, int height, VOption *options = nullptr) const;

	/**
	 * Load csv.
	 *
	 * **Optional parameters**
	 *   - **skip** -- Skip this many lines at the start of the file, int.
	 *   - **lines** -- Read this many lines from the file, int.
	 *   - **whitespace** -- Set of whitespace characters, const char *.
	 *   - **separator** -- Set of separator characters, const char *.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage csvload(const char *filename, VOption *options = nullptr);

	/**
	 * Load csv.
	 *
	 * **Optional parameters**
	 *   - **skip** -- Skip this many lines at the start of the file, int.
	 *   - **lines** -- Read this many lines from the file, int.
	 *   - **whitespace** -- Set of whitespace characters, const char *.
	 *   - **separator** -- Set of separator characters, const char *.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage csvload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save image to csv.
	 *
	 * **Optional parameters**
	 *   - **separator** -- Separator characters, const char *.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void csvsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save image to csv.
	 *
	 * **Optional parameters**
	 *   - **separator** -- Separator characters, const char *.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void csvsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Calculate de00.
	 * @param right Right-hand input image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage dE00(VImage right, VOption *options = nullptr) const;

	/**
	 * Calculate de76.
	 * @param right Right-hand input image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage dE76(VImage right, VOption *options = nullptr) const;

	/**
	 * Calculate decmc.
	 * @param right Right-hand input image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage dECMC(VImage right, VOption *options = nullptr) const;

	/**
	 * Find image standard deviation.
	 * @param options Set of options.
	 * @return Output value.
	 */
	double deviate(VOption *options = nullptr) const;

	/**
	 * Divide two images.
	 * @param right Right-hand image argument.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage divide(VImage right, VOption *options = nullptr) const;

	/**
	 * Draw a circle on an image.
	 *
	 * **Optional parameters**
	 *   - **fill** -- Draw a solid object, bool.
	 *
	 * @param ink Color for pixels.
	 * @param cx Centre of draw_circle.
	 * @param cy Centre of draw_circle.
	 * @param radius Radius in pixels.
	 * @param options Set of options.
	 */
	void draw_circle(std::vector<double> ink, int cx, int cy, int radius, VOption *options = nullptr) const;

	/**
	 * Flood-fill an area.
	 *
	 * **Optional parameters**
	 *   - **test** -- Test pixels in this image, VImage.
	 *   - **equal** -- DrawFlood while equal to edge, bool.
	 *
	 * @param ink Color for pixels.
	 * @param x DrawFlood start point.
	 * @param y DrawFlood start point.
	 * @param options Set of options.
	 */
	void draw_flood(std::vector<double> ink, int x, int y, VOption *options = nullptr) const;

	/**
	 * Paint an image into another image.
	 *
	 * **Optional parameters**
	 *   - **mode** -- Combining mode, VipsCombineMode.
	 *
	 * @param sub Sub-image to insert into main image.
	 * @param x Draw image here.
	 * @param y Draw image here.
	 * @param options Set of options.
	 */
	void draw_image(VImage sub, int x, int y, VOption *options = nullptr) const;

	/**
	 * Draw a line on an image.
	 * @param ink Color for pixels.
	 * @param x1 Start of draw_line.
	 * @param y1 Start of draw_line.
	 * @param x2 End of draw_line.
	 * @param y2 End of draw_line.
	 * @param options Set of options.
	 */
	void draw_line(std::vector<double> ink, int x1, int y1, int x2, int y2, VOption *options = nullptr) const;

	/**
	 * Draw a mask on an image.
	 * @param ink Color for pixels.
	 * @param mask Mask of pixels to draw.
	 * @param x Draw mask here.
	 * @param y Draw mask here.
	 * @param options Set of options.
	 */
	void draw_mask(std::vector<double> ink, VImage mask, int x, int y, VOption *options = nullptr) const;

	/**
	 * Paint a rectangle on an image.
	 *
	 * **Optional parameters**
	 *   - **fill** -- Draw a solid object, bool.
	 *
	 * @param ink Color for pixels.
	 * @param left Rect to fill.
	 * @param top Rect to fill.
	 * @param width Rect to fill.
	 * @param height Rect to fill.
	 * @param options Set of options.
	 */
	void draw_rect(std::vector<double> ink, int left, int top, int width, int height, VOption *options = nullptr) const;

	/**
	 * Blur a rectangle on an image.
	 * @param left Rect to fill.
	 * @param top Rect to fill.
	 * @param width Rect to fill.
	 * @param height Rect to fill.
	 * @param options Set of options.
	 */
	void draw_smudge(int left, int top, int width, int height, VOption *options = nullptr) const;

	/**
	 * Save image to deepzoom file.
	 *
	 * **Optional parameters**
	 *   - **imagename** -- Image name, const char *.
	 *   - **layout** -- Directory layout, VipsForeignDzLayout.
	 *   - **suffix** -- Filename suffix for tiles, const char *.
	 *   - **overlap** -- Tile overlap in pixels, int.
	 *   - **tile_size** -- Tile size in pixels, int.
	 *   - **centre** -- Center image in tile, bool.
	 *   - **depth** -- Pyramid depth, VipsForeignDzDepth.
	 *   - **angle** -- Rotate image during save, VipsAngle.
	 *   - **container** -- Pyramid container type, VipsForeignDzContainer.
	 *   - **compression** -- ZIP deflate compression level, int.
	 *   - **region_shrink** -- Method to shrink regions, VipsRegionShrink.
	 *   - **skip_blanks** -- Skip tiles which are nearly equal to the background, int.
	 *   - **id** -- Resource ID, const char *.
	 *   - **Q** -- Q factor, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void dzsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save image to dz buffer.
	 *
	 * **Optional parameters**
	 *   - **imagename** -- Image name, const char *.
	 *   - **layout** -- Directory layout, VipsForeignDzLayout.
	 *   - **suffix** -- Filename suffix for tiles, const char *.
	 *   - **overlap** -- Tile overlap in pixels, int.
	 *   - **tile_size** -- Tile size in pixels, int.
	 *   - **centre** -- Center image in tile, bool.
	 *   - **depth** -- Pyramid depth, VipsForeignDzDepth.
	 *   - **angle** -- Rotate image during save, VipsAngle.
	 *   - **container** -- Pyramid container type, VipsForeignDzContainer.
	 *   - **compression** -- ZIP deflate compression level, int.
	 *   - **region_shrink** -- Method to shrink regions, VipsRegionShrink.
	 *   - **skip_blanks** -- Skip tiles which are nearly equal to the background, int.
	 *   - **id** -- Resource ID, const char *.
	 *   - **Q** -- Q factor, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 * @return Buffer to save to.
	 */
	VipsBlob *dzsave_buffer(VOption *options = nullptr) const;

	/**
	 * Save image to deepzoom target.
	 *
	 * **Optional parameters**
	 *   - **imagename** -- Image name, const char *.
	 *   - **layout** -- Directory layout, VipsForeignDzLayout.
	 *   - **suffix** -- Filename suffix for tiles, const char *.
	 *   - **overlap** -- Tile overlap in pixels, int.
	 *   - **tile_size** -- Tile size in pixels, int.
	 *   - **centre** -- Center image in tile, bool.
	 *   - **depth** -- Pyramid depth, VipsForeignDzDepth.
	 *   - **angle** -- Rotate image during save, VipsAngle.
	 *   - **container** -- Pyramid container type, VipsForeignDzContainer.
	 *   - **compression** -- ZIP deflate compression level, int.
	 *   - **region_shrink** -- Method to shrink regions, VipsRegionShrink.
	 *   - **skip_blanks** -- Skip tiles which are nearly equal to the background, int.
	 *   - **id** -- Resource ID, const char *.
	 *   - **Q** -- Q factor, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void dzsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Embed an image in a larger image.
	 *
	 * **Optional parameters**
	 *   - **extend** -- How to generate the extra pixels, VipsExtend.
	 *   - **background** -- Color for background pixels, std::vector<double>.
	 *
	 * @param x Left edge of input in output.
	 * @param y Top edge of input in output.
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage embed(int x, int y, int width, int height, VOption *options = nullptr) const;

	/**
	 * Extract an area from an image.
	 * @param left Left edge of extract area.
	 * @param top Top edge of extract area.
	 * @param width Width of extract area.
	 * @param height Height of extract area.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage extract_area(int left, int top, int width, int height, VOption *options = nullptr) const;

	/**
	 * Extract band from an image.
	 *
	 * **Optional parameters**
	 *   - **n** -- Number of bands to extract, int.
	 *
	 * @param band Band to extract.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage extract_band(int band, VOption *options = nullptr) const;

	/**
	 * Make an image showing the eye's spatial response.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **factor** -- Maximum spatial frequency, double.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage eye(int width, int height, VOption *options = nullptr);

	/**
	 * False-color an image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage falsecolour(VOption *options = nullptr) const;

	/**
	 * Fast correlation.
	 * @param ref Input reference image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage fastcor(VImage ref, VOption *options = nullptr) const;

	/**
	 * Fill image zeros with nearest non-zero pixel.
	 * @param options Set of options.
	 * @return Value of nearest non-zero pixel.
	 */
	VImage fill_nearest(VOption *options = nullptr) const;

	/**
	 * Search an image for non-edge areas.
	 *
	 * **Optional parameters**
	 *   - **threshold** -- Object threshold, double.
	 *   - **background** -- Color for background pixels, std::vector<double>.
	 *   - **line_art** -- Enable line art mode, bool.
	 *
	 * @param top Top edge of extract area.
	 * @param width Width of extract area.
	 * @param height Height of extract area.
	 * @param options Set of options.
	 * @return Left edge of image.
	 */
	int find_trim(int *top, int *width, int *height, VOption *options = nullptr) const;

	/**
	 * Load a fits image.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage fitsload(const char *filename, VOption *options = nullptr);

	/**
	 * Load fits from a source.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage fitsload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save image to fits file.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void fitssave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Flatten alpha out of an image.
	 *
	 * **Optional parameters**
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **max_alpha** -- Maximum value of alpha channel, double.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage flatten(VOption *options = nullptr) const;

	/**
	 * Flip an image.
	 * @param direction Direction to flip image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage flip(VipsDirection direction, VOption *options = nullptr) const;

	/**
	 * Transform float rgb to radiance coding.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage float2rad(VOption *options = nullptr) const;

	/**
	 * Make a fractal surface.
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param fractal_dimension Fractal dimension.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage fractsurf(int width, int height, double fractal_dimension, VOption *options = nullptr);

	/**
	 * Frequency-domain filtering.
	 * @param mask Input mask image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage freqmult(VImage mask, VOption *options = nullptr) const;

	/**
	 * Forward fft.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage fwfft(VOption *options = nullptr) const;

	/**
	 * Gamma an image.
	 *
	 * **Optional parameters**
	 *   - **exponent** -- Gamma factor, double.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage gamma(VOption *options = nullptr) const;

	/**
	 * Gaussian blur.
	 *
	 * **Optional parameters**
	 *   - **min_ampl** -- Minimum amplitude of Gaussian, double.
	 *   - **precision** -- Convolve with this precision, VipsPrecision.
	 *
	 * @param sigma Sigma of Gaussian.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage gaussblur(double sigma, VOption *options = nullptr) const;

	/**
	 * Make a gaussian image.
	 *
	 * **Optional parameters**
	 *   - **separable** -- Generate separable Gaussian, bool.
	 *   - **precision** -- Generate with this precision, VipsPrecision.
	 *
	 * @param sigma Sigma of Gaussian.
	 * @param min_ampl Minimum amplitude of Gaussian.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage gaussmat(double sigma, double min_ampl, VOption *options = nullptr);

	/**
	 * Make a gaussnoise image.
	 *
	 * **Optional parameters**
	 *   - **sigma** -- Standard deviation of pixels in generated image, double.
	 *   - **mean** -- Mean of pixels in generated image, double.
	 *   - **seed** -- Random number seed, int.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage gaussnoise(int width, int height, VOption *options = nullptr);

	/**
	 * Read a point from an image.
	 *
	 * **Optional parameters**
	 *   - **unpack_complex** -- Complex pixels should be unpacked, bool.
	 *
	 * @param x Point to read.
	 * @param y Point to read.
	 * @param options Set of options.
	 * @return Array of output values.
	 */
	std::vector<double> getpoint(int x, int y, VOption *options = nullptr) const;

	/**
	 * Load gif with libnsgif.
	 *
	 * **Optional parameters**
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **page** -- First page to load, int.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage gifload(const char *filename, VOption *options = nullptr);

	/**
	 * Load gif with libnsgif.
	 *
	 * **Optional parameters**
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **page** -- First page to load, int.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param buffer Buffer to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage gifload_buffer(VipsBlob *buffer, VOption *options = nullptr);

	/**
	 * Load gif from source.
	 *
	 * **Optional parameters**
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **page** -- First page to load, int.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage gifload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save as gif.
	 *
	 * **Optional parameters**
	 *   - **dither** -- Amount of dithering, double.
	 *   - **effort** -- Quantisation effort, int.
	 *   - **bitdepth** -- Number of bits per pixel, int.
	 *   - **interframe_maxerror** -- Maximum inter-frame error for transparency, double.
	 *   - **reuse** -- Reuse palette from input, bool.
	 *   - **interpalette_maxerror** -- Maximum inter-palette error for palette reusage, double.
	 *   - **interlace** -- Generate an interlaced (progressive) GIF, bool.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void gifsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save as gif.
	 *
	 * **Optional parameters**
	 *   - **dither** -- Amount of dithering, double.
	 *   - **effort** -- Quantisation effort, int.
	 *   - **bitdepth** -- Number of bits per pixel, int.
	 *   - **interframe_maxerror** -- Maximum inter-frame error for transparency, double.
	 *   - **reuse** -- Reuse palette from input, bool.
	 *   - **interpalette_maxerror** -- Maximum inter-palette error for palette reusage, double.
	 *   - **interlace** -- Generate an interlaced (progressive) GIF, bool.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 * @return Buffer to save to.
	 */
	VipsBlob *gifsave_buffer(VOption *options = nullptr) const;

	/**
	 * Save as gif.
	 *
	 * **Optional parameters**
	 *   - **dither** -- Amount of dithering, double.
	 *   - **effort** -- Quantisation effort, int.
	 *   - **bitdepth** -- Number of bits per pixel, int.
	 *   - **interframe_maxerror** -- Maximum inter-frame error for transparency, double.
	 *   - **reuse** -- Reuse palette from input, bool.
	 *   - **interpalette_maxerror** -- Maximum inter-palette error for palette reusage, double.
	 *   - **interlace** -- Generate an interlaced (progressive) GIF, bool.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void gifsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Global balance an image mosaic.
	 *
	 * **Optional parameters**
	 *   - **gamma** -- Image gamma, double.
	 *   - **int_output** -- Integer output, bool.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage globalbalance(VOption *options = nullptr) const;

	/**
	 * Place an image within a larger image with a certain gravity.
	 *
	 * **Optional parameters**
	 *   - **extend** -- How to generate the extra pixels, VipsExtend.
	 *   - **background** -- Color for background pixels, std::vector<double>.
	 *
	 * @param direction Direction to place image within width/height.
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage gravity(VipsCompassDirection direction, int width, int height, VOption *options = nullptr) const;

	/**
	 * Make a grey ramp image.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage grey(int width, int height, VOption *options = nullptr);

	/**
	 * Grid an image.
	 * @param tile_height Chop into tiles this high.
	 * @param across Number of tiles across.
	 * @param down Number of tiles down.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage grid(int tile_height, int across, int down, VOption *options = nullptr) const;

	/**
	 * Load a heif image.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **thumbnail** -- Fetch thumbnail image, bool.
	 *   - **unlimited** -- Remove all denial of service limits, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage heifload(const char *filename, VOption *options = nullptr);

	/**
	 * Load a heif image.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **thumbnail** -- Fetch thumbnail image, bool.
	 *   - **unlimited** -- Remove all denial of service limits, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param buffer Buffer to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage heifload_buffer(VipsBlob *buffer, VOption *options = nullptr);

	/**
	 * Load a heif image.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **thumbnail** -- Fetch thumbnail image, bool.
	 *   - **unlimited** -- Remove all denial of service limits, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage heifload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save image in heif format.
	 *
	 * **Optional parameters**
	 *   - **Q** -- Q factor, int.
	 *   - **bitdepth** -- Number of bits per pixel, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **compression** -- Compression format, VipsForeignHeifCompression.
	 *   - **effort** -- CPU effort, int.
	 *   - **subsample_mode** -- Select chroma subsample operation mode, VipsForeignSubsample.
	 *   - **encoder** -- Select encoder to use, VipsForeignHeifEncoder.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void heifsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save image in heif format.
	 *
	 * **Optional parameters**
	 *   - **Q** -- Q factor, int.
	 *   - **bitdepth** -- Number of bits per pixel, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **compression** -- Compression format, VipsForeignHeifCompression.
	 *   - **effort** -- CPU effort, int.
	 *   - **subsample_mode** -- Select chroma subsample operation mode, VipsForeignSubsample.
	 *   - **encoder** -- Select encoder to use, VipsForeignHeifEncoder.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 * @return Buffer to save to.
	 */
	VipsBlob *heifsave_buffer(VOption *options = nullptr) const;

	/**
	 * Save image in heif format.
	 *
	 * **Optional parameters**
	 *   - **Q** -- Q factor, int.
	 *   - **bitdepth** -- Number of bits per pixel, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **compression** -- Compression format, VipsForeignHeifCompression.
	 *   - **effort** -- CPU effort, int.
	 *   - **subsample_mode** -- Select chroma subsample operation mode, VipsForeignSubsample.
	 *   - **encoder** -- Select encoder to use, VipsForeignHeifEncoder.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void heifsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Form cumulative histogram.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage hist_cum(VOption *options = nullptr) const;

	/**
	 * Estimate image entropy.
	 * @param options Set of options.
	 * @return Output value.
	 */
	double hist_entropy(VOption *options = nullptr) const;

	/**
	 * Histogram equalisation.
	 *
	 * **Optional parameters**
	 *   - **band** -- Equalise with this band, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage hist_equal(VOption *options = nullptr) const;

	/**
	 * Find image histogram.
	 *
	 * **Optional parameters**
	 *   - **band** -- Find histogram of band, int.
	 *
	 * @param options Set of options.
	 * @return Output histogram.
	 */
	VImage hist_find(VOption *options = nullptr) const;

	/**
	 * Find indexed image histogram.
	 *
	 * **Optional parameters**
	 *   - **combine** -- Combine bins like this, VipsCombine.
	 *
	 * @param index Index image.
	 * @param options Set of options.
	 * @return Output histogram.
	 */
	VImage hist_find_indexed(VImage index, VOption *options = nullptr) const;

	/**
	 * Find n-dimensional image histogram.
	 *
	 * **Optional parameters**
	 *   - **bins** -- Number of bins in each dimension, int.
	 *
	 * @param options Set of options.
	 * @return Output histogram.
	 */
	VImage hist_find_ndim(VOption *options = nullptr) const;

	/**
	 * Test for monotonicity.
	 * @param options Set of options.
	 * @return true if in is monotonic.
	 */
	bool hist_ismonotonic(VOption *options = nullptr) const;

	/**
	 * Local histogram equalisation.
	 *
	 * **Optional parameters**
	 *   - **max_slope** -- Maximum slope (CLAHE), int.
	 *
	 * @param width Window width in pixels.
	 * @param height Window height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage hist_local(int width, int height, VOption *options = nullptr) const;

	/**
	 * Match two histograms.
	 * @param ref Reference histogram.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage hist_match(VImage ref, VOption *options = nullptr) const;

	/**
	 * Normalise histogram.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage hist_norm(VOption *options = nullptr) const;

	/**
	 * Plot histogram.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage hist_plot(VOption *options = nullptr) const;

	/**
	 * Find hough circle transform.
	 *
	 * **Optional parameters**
	 *   - **scale** -- Scale down dimensions by this factor, int.
	 *   - **min_radius** -- Smallest radius to search for, int.
	 *   - **max_radius** -- Largest radius to search for, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage hough_circle(VOption *options = nullptr) const;

	/**
	 * Find hough line transform.
	 *
	 * **Optional parameters**
	 *   - **width** -- Horizontal size of parameter space, int.
	 *   - **height** -- Vertical size of parameter space, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage hough_line(VOption *options = nullptr) const;

	/**
	 * Output to device with icc profile.
	 *
	 * **Optional parameters**
	 *   - **pcs** -- Set Profile Connection Space, VipsPCS.
	 *   - **intent** -- Rendering intent, VipsIntent.
	 *   - **black_point_compensation** -- Enable black point compensation, bool.
	 *   - **output_profile** -- Filename to load output profile from, const char *.
	 *   - **depth** -- Output device space depth in bits, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage icc_export(VOption *options = nullptr) const;

	/**
	 * Import from device with icc profile.
	 *
	 * **Optional parameters**
	 *   - **pcs** -- Set Profile Connection Space, VipsPCS.
	 *   - **intent** -- Rendering intent, VipsIntent.
	 *   - **black_point_compensation** -- Enable black point compensation, bool.
	 *   - **embedded** -- Use embedded input profile, if available, bool.
	 *   - **input_profile** -- Filename to load input profile from, const char *.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage icc_import(VOption *options = nullptr) const;

	/**
	 * Transform between devices with icc profiles.
	 *
	 * **Optional parameters**
	 *   - **pcs** -- Set Profile Connection Space, VipsPCS.
	 *   - **intent** -- Rendering intent, VipsIntent.
	 *   - **black_point_compensation** -- Enable black point compensation, bool.
	 *   - **embedded** -- Use embedded input profile, if available, bool.
	 *   - **input_profile** -- Filename to load input profile from, const char *.
	 *   - **depth** -- Output device space depth in bits, int.
	 *
	 * @param output_profile Filename to load output profile from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage icc_transform(const char *output_profile, VOption *options = nullptr) const;

	/**
	 * Make a 1d image where pixel values are indexes.
	 *
	 * **Optional parameters**
	 *   - **bands** -- Number of bands in LUT, int.
	 *   - **ushort** -- Create a 16-bit LUT, bool.
	 *   - **size** -- Size of 16-bit LUT, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage identity(VOption *options = nullptr);

	/**
	 * Ifthenelse an image.
	 *
	 * **Optional parameters**
	 *   - **blend** -- Blend smoothly between then and else parts, bool.
	 *
	 * @param in1 Source for TRUE pixels.
	 * @param in2 Source for FALSE pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage ifthenelse(VImage in1, VImage in2, VOption *options = nullptr) const;

	/**
	 * Insert image @sub into @main at @x, @y.
	 *
	 * **Optional parameters**
	 *   - **expand** -- Expand output to hold all of both inputs, bool.
	 *   - **background** -- Color for new pixels, std::vector<double>.
	 *
	 * @param sub Sub-image to insert into main image.
	 * @param x Left edge of sub in main.
	 * @param y Top edge of sub in main.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage insert(VImage sub, int x, int y, VOption *options = nullptr) const;

	/**
	 * Invert an image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage invert(VOption *options = nullptr) const;

	/**
	 * Build an inverted look-up table.
	 *
	 * **Optional parameters**
	 *   - **size** -- LUT size to generate, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage invertlut(VOption *options = nullptr) const;

	/**
	 * Inverse fft.
	 *
	 * **Optional parameters**
	 *   - **real** -- Output only the real part of the transform, bool.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage invfft(VOption *options = nullptr) const;

	/**
	 * Join a pair of images.
	 *
	 * **Optional parameters**
	 *   - **expand** -- Expand output to hold all of both inputs, bool.
	 *   - **shim** -- Pixels between images, int.
	 *   - **background** -- Colour for new pixels, std::vector<double>.
	 *   - **align** -- Align on the low, centre or high coordinate edge, VipsAlign.
	 *
	 * @param in2 Second input image.
	 * @param direction Join left-right or up-down.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage join(VImage in2, VipsDirection direction, VOption *options = nullptr) const;

	/**
	 * Load jpeg2000 image.
	 *
	 * **Optional parameters**
	 *   - **page** -- Load this page from the image, int.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage jp2kload(const char *filename, VOption *options = nullptr);

	/**
	 * Load jpeg2000 image.
	 *
	 * **Optional parameters**
	 *   - **page** -- Load this page from the image, int.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param buffer Buffer to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage jp2kload_buffer(VipsBlob *buffer, VOption *options = nullptr);

	/**
	 * Load jpeg2000 image.
	 *
	 * **Optional parameters**
	 *   - **page** -- Load this page from the image, int.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage jp2kload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save image in jpeg2000 format.
	 *
	 * **Optional parameters**
	 *   - **tile_width** -- Tile width in pixels, int.
	 *   - **tile_height** -- Tile height in pixels, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **Q** -- Q factor, int.
	 *   - **subsample_mode** -- Select chroma subsample operation mode, VipsForeignSubsample.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void jp2ksave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save image in jpeg2000 format.
	 *
	 * **Optional parameters**
	 *   - **tile_width** -- Tile width in pixels, int.
	 *   - **tile_height** -- Tile height in pixels, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **Q** -- Q factor, int.
	 *   - **subsample_mode** -- Select chroma subsample operation mode, VipsForeignSubsample.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 * @return Buffer to save to.
	 */
	VipsBlob *jp2ksave_buffer(VOption *options = nullptr) const;

	/**
	 * Save image in jpeg2000 format.
	 *
	 * **Optional parameters**
	 *   - **tile_width** -- Tile width in pixels, int.
	 *   - **tile_height** -- Tile height in pixels, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **Q** -- Q factor, int.
	 *   - **subsample_mode** -- Select chroma subsample operation mode, VipsForeignSubsample.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void jp2ksave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Load jpeg from file.
	 *
	 * **Optional parameters**
	 *   - **shrink** -- Shrink factor on load, int.
	 *   - **autorotate** -- Rotate image using exif orientation, bool.
	 *   - **unlimited** -- Remove all denial of service limits, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage jpegload(const char *filename, VOption *options = nullptr);

	/**
	 * Load jpeg from buffer.
	 *
	 * **Optional parameters**
	 *   - **shrink** -- Shrink factor on load, int.
	 *   - **autorotate** -- Rotate image using exif orientation, bool.
	 *   - **unlimited** -- Remove all denial of service limits, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param buffer Buffer to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage jpegload_buffer(VipsBlob *buffer, VOption *options = nullptr);

	/**
	 * Load image from jpeg source.
	 *
	 * **Optional parameters**
	 *   - **shrink** -- Shrink factor on load, int.
	 *   - **autorotate** -- Rotate image using exif orientation, bool.
	 *   - **unlimited** -- Remove all denial of service limits, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage jpegload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save image to jpeg file.
	 *
	 * **Optional parameters**
	 *   - **Q** -- Q factor, int.
	 *   - **optimize_coding** -- Compute optimal Huffman coding tables, bool.
	 *   - **interlace** -- Generate an interlaced (progressive) jpeg, bool.
	 *   - **trellis_quant** -- Apply trellis quantisation to each 8x8 block, bool.
	 *   - **overshoot_deringing** -- Apply overshooting to samples with extreme values, bool.
	 *   - **optimize_scans** -- Split spectrum of DCT coefficients into separate scans, bool.
	 *   - **quant_table** -- Use predefined quantization table with given index, int.
	 *   - **subsample_mode** -- Select chroma subsample operation mode, VipsForeignSubsample.
	 *   - **restart_interval** -- Add restart markers every specified number of mcu, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void jpegsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save image to jpeg buffer.
	 *
	 * **Optional parameters**
	 *   - **Q** -- Q factor, int.
	 *   - **optimize_coding** -- Compute optimal Huffman coding tables, bool.
	 *   - **interlace** -- Generate an interlaced (progressive) jpeg, bool.
	 *   - **trellis_quant** -- Apply trellis quantisation to each 8x8 block, bool.
	 *   - **overshoot_deringing** -- Apply overshooting to samples with extreme values, bool.
	 *   - **optimize_scans** -- Split spectrum of DCT coefficients into separate scans, bool.
	 *   - **quant_table** -- Use predefined quantization table with given index, int.
	 *   - **subsample_mode** -- Select chroma subsample operation mode, VipsForeignSubsample.
	 *   - **restart_interval** -- Add restart markers every specified number of mcu, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 * @return Buffer to save to.
	 */
	VipsBlob *jpegsave_buffer(VOption *options = nullptr) const;

	/**
	 * Save image to jpeg mime.
	 *
	 * **Optional parameters**
	 *   - **Q** -- Q factor, int.
	 *   - **optimize_coding** -- Compute optimal Huffman coding tables, bool.
	 *   - **interlace** -- Generate an interlaced (progressive) jpeg, bool.
	 *   - **trellis_quant** -- Apply trellis quantisation to each 8x8 block, bool.
	 *   - **overshoot_deringing** -- Apply overshooting to samples with extreme values, bool.
	 *   - **optimize_scans** -- Split spectrum of DCT coefficients into separate scans, bool.
	 *   - **quant_table** -- Use predefined quantization table with given index, int.
	 *   - **subsample_mode** -- Select chroma subsample operation mode, VipsForeignSubsample.
	 *   - **restart_interval** -- Add restart markers every specified number of mcu, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 */
	void jpegsave_mime(VOption *options = nullptr) const;

	/**
	 * Save image to jpeg target.
	 *
	 * **Optional parameters**
	 *   - **Q** -- Q factor, int.
	 *   - **optimize_coding** -- Compute optimal Huffman coding tables, bool.
	 *   - **interlace** -- Generate an interlaced (progressive) jpeg, bool.
	 *   - **trellis_quant** -- Apply trellis quantisation to each 8x8 block, bool.
	 *   - **overshoot_deringing** -- Apply overshooting to samples with extreme values, bool.
	 *   - **optimize_scans** -- Split spectrum of DCT coefficients into separate scans, bool.
	 *   - **quant_table** -- Use predefined quantization table with given index, int.
	 *   - **subsample_mode** -- Select chroma subsample operation mode, VipsForeignSubsample.
	 *   - **restart_interval** -- Add restart markers every specified number of mcu, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void jpegsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Load jpeg-xl image.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage jxlload(const char *filename, VOption *options = nullptr);

	/**
	 * Load jpeg-xl image.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param buffer Buffer to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage jxlload_buffer(VipsBlob *buffer, VOption *options = nullptr);

	/**
	 * Load jpeg-xl image.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage jxlload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save image in jpeg-xl format.
	 *
	 * **Optional parameters**
	 *   - **tier** -- Decode speed tier, int.
	 *   - **distance** -- Target butteraugli distance, double.
	 *   - **effort** -- Encoding effort, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **Q** -- Quality factor, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void jxlsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save image in jpeg-xl format.
	 *
	 * **Optional parameters**
	 *   - **tier** -- Decode speed tier, int.
	 *   - **distance** -- Target butteraugli distance, double.
	 *   - **effort** -- Encoding effort, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **Q** -- Quality factor, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 * @return Buffer to save to.
	 */
	VipsBlob *jxlsave_buffer(VOption *options = nullptr) const;

	/**
	 * Save image in jpeg-xl format.
	 *
	 * **Optional parameters**
	 *   - **tier** -- Decode speed tier, int.
	 *   - **distance** -- Target butteraugli distance, double.
	 *   - **effort** -- Encoding effort, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **Q** -- Quality factor, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void jxlsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Label regions in an image.
	 * @param options Set of options.
	 * @return Mask of region labels.
	 */
	VImage labelregions(VOption *options = nullptr) const;

	/**
	 * Calculate (a * in + b).
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output should be uchar, bool.
	 *
	 * @param a Multiply by this.
	 * @param b Add this.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage linear(std::vector<double> a, std::vector<double> b, VOption *options = nullptr) const;

	/**
	 * Cache an image as a set of lines.
	 *
	 * **Optional parameters**
	 *   - **tile_height** -- Tile height in pixels, int.
	 *   - **access** -- Expected access pattern, VipsAccess.
	 *   - **threaded** -- Allow threaded access, bool.
	 *   - **persistent** -- Keep cache between evaluations, bool.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage linecache(VOption *options = nullptr) const;

	/**
	 * Make a laplacian of gaussian image.
	 *
	 * **Optional parameters**
	 *   - **separable** -- Generate separable Gaussian, bool.
	 *   - **precision** -- Generate with this precision, VipsPrecision.
	 *
	 * @param sigma Radius of Gaussian.
	 * @param min_ampl Minimum amplitude of Gaussian.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage logmat(double sigma, double min_ampl, VOption *options = nullptr);

	/**
	 * Load file with imagemagick.
	 *
	 * **Optional parameters**
	 *   - **density** -- Canvas resolution for rendering vector formats like SVG, const char *.
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage magickload(const char *filename, VOption *options = nullptr);

	/**
	 * Load buffer with imagemagick.
	 *
	 * **Optional parameters**
	 *   - **density** -- Canvas resolution for rendering vector formats like SVG, const char *.
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param buffer Buffer to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage magickload_buffer(VipsBlob *buffer, VOption *options = nullptr);

	/**
	 * Save file with imagemagick.
	 *
	 * **Optional parameters**
	 *   - **format** -- Format to save in, const char *.
	 *   - **quality** -- Quality to use, int.
	 *   - **optimize_gif_frames** -- Apply GIF frames optimization, bool.
	 *   - **optimize_gif_transparency** -- Apply GIF transparency optimization, bool.
	 *   - **bitdepth** -- Number of bits per pixel, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void magicksave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save image to magick buffer.
	 *
	 * **Optional parameters**
	 *   - **format** -- Format to save in, const char *.
	 *   - **quality** -- Quality to use, int.
	 *   - **optimize_gif_frames** -- Apply GIF frames optimization, bool.
	 *   - **optimize_gif_transparency** -- Apply GIF transparency optimization, bool.
	 *   - **bitdepth** -- Number of bits per pixel, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 * @return Buffer to save to.
	 */
	VipsBlob *magicksave_buffer(VOption *options = nullptr) const;

	/**
	 * Resample with a map image.
	 *
	 * **Optional parameters**
	 *   - **interpolate** -- Interpolate pixels with this, VInterpolate.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **premultiplied** -- Images have premultiplied alpha, bool.
	 *   - **extend** -- How to generate the extra pixels, VipsExtend.
	 *
	 * @param index Index pixels with this.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage mapim(VImage index, VOption *options = nullptr) const;

	/**
	 * Map an image though a lut.
	 *
	 * **Optional parameters**
	 *   - **band** -- Apply one-band lut to this band of in, int.
	 *
	 * @param lut Look-up table image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage maplut(VImage lut, VOption *options = nullptr) const;

	/**
	 * Make a butterworth filter.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **nodc** -- Remove DC component, bool.
	 *   - **reject** -- Invert the sense of the filter, bool.
	 *   - **optical** -- Rotate quadrants to optical space, bool.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param order Filter order.
	 * @param frequency_cutoff Frequency cutoff.
	 * @param amplitude_cutoff Amplitude cutoff.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage mask_butterworth(int width, int height, double order, double frequency_cutoff, double amplitude_cutoff, VOption *options = nullptr);

	/**
	 * Make a butterworth_band filter.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **nodc** -- Remove DC component, bool.
	 *   - **reject** -- Invert the sense of the filter, bool.
	 *   - **optical** -- Rotate quadrants to optical space, bool.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param order Filter order.
	 * @param frequency_cutoff_x Frequency cutoff x.
	 * @param frequency_cutoff_y Frequency cutoff y.
	 * @param radius Radius of circle.
	 * @param amplitude_cutoff Amplitude cutoff.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage mask_butterworth_band(int width, int height, double order, double frequency_cutoff_x, double frequency_cutoff_y, double radius, double amplitude_cutoff, VOption *options = nullptr);

	/**
	 * Make a butterworth ring filter.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **nodc** -- Remove DC component, bool.
	 *   - **reject** -- Invert the sense of the filter, bool.
	 *   - **optical** -- Rotate quadrants to optical space, bool.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param order Filter order.
	 * @param frequency_cutoff Frequency cutoff.
	 * @param amplitude_cutoff Amplitude cutoff.
	 * @param ringwidth Ringwidth.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage mask_butterworth_ring(int width, int height, double order, double frequency_cutoff, double amplitude_cutoff, double ringwidth, VOption *options = nullptr);

	/**
	 * Make fractal filter.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **nodc** -- Remove DC component, bool.
	 *   - **reject** -- Invert the sense of the filter, bool.
	 *   - **optical** -- Rotate quadrants to optical space, bool.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param fractal_dimension Fractal dimension.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage mask_fractal(int width, int height, double fractal_dimension, VOption *options = nullptr);

	/**
	 * Make a gaussian filter.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **nodc** -- Remove DC component, bool.
	 *   - **reject** -- Invert the sense of the filter, bool.
	 *   - **optical** -- Rotate quadrants to optical space, bool.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param frequency_cutoff Frequency cutoff.
	 * @param amplitude_cutoff Amplitude cutoff.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage mask_gaussian(int width, int height, double frequency_cutoff, double amplitude_cutoff, VOption *options = nullptr);

	/**
	 * Make a gaussian filter.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **nodc** -- Remove DC component, bool.
	 *   - **reject** -- Invert the sense of the filter, bool.
	 *   - **optical** -- Rotate quadrants to optical space, bool.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param frequency_cutoff_x Frequency cutoff x.
	 * @param frequency_cutoff_y Frequency cutoff y.
	 * @param radius Radius of circle.
	 * @param amplitude_cutoff Amplitude cutoff.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage mask_gaussian_band(int width, int height, double frequency_cutoff_x, double frequency_cutoff_y, double radius, double amplitude_cutoff, VOption *options = nullptr);

	/**
	 * Make a gaussian ring filter.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **nodc** -- Remove DC component, bool.
	 *   - **reject** -- Invert the sense of the filter, bool.
	 *   - **optical** -- Rotate quadrants to optical space, bool.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param frequency_cutoff Frequency cutoff.
	 * @param amplitude_cutoff Amplitude cutoff.
	 * @param ringwidth Ringwidth.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage mask_gaussian_ring(int width, int height, double frequency_cutoff, double amplitude_cutoff, double ringwidth, VOption *options = nullptr);

	/**
	 * Make an ideal filter.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **nodc** -- Remove DC component, bool.
	 *   - **reject** -- Invert the sense of the filter, bool.
	 *   - **optical** -- Rotate quadrants to optical space, bool.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param frequency_cutoff Frequency cutoff.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage mask_ideal(int width, int height, double frequency_cutoff, VOption *options = nullptr);

	/**
	 * Make an ideal band filter.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **nodc** -- Remove DC component, bool.
	 *   - **reject** -- Invert the sense of the filter, bool.
	 *   - **optical** -- Rotate quadrants to optical space, bool.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param frequency_cutoff_x Frequency cutoff x.
	 * @param frequency_cutoff_y Frequency cutoff y.
	 * @param radius Radius of circle.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage mask_ideal_band(int width, int height, double frequency_cutoff_x, double frequency_cutoff_y, double radius, VOption *options = nullptr);

	/**
	 * Make an ideal ring filter.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **nodc** -- Remove DC component, bool.
	 *   - **reject** -- Invert the sense of the filter, bool.
	 *   - **optical** -- Rotate quadrants to optical space, bool.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param frequency_cutoff Frequency cutoff.
	 * @param ringwidth Ringwidth.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage mask_ideal_ring(int width, int height, double frequency_cutoff, double ringwidth, VOption *options = nullptr);

	/**
	 * First-order match of two images.
	 *
	 * **Optional parameters**
	 *   - **hwindow** -- Half window size, int.
	 *   - **harea** -- Half area size, int.
	 *   - **search** -- Search to improve tie-points, bool.
	 *   - **interpolate** -- Interpolate pixels with this, VInterpolate.
	 *
	 * @param sec Secondary image.
	 * @param xr1 Position of first reference tie-point.
	 * @param yr1 Position of first reference tie-point.
	 * @param xs1 Position of first secondary tie-point.
	 * @param ys1 Position of first secondary tie-point.
	 * @param xr2 Position of second reference tie-point.
	 * @param yr2 Position of second reference tie-point.
	 * @param xs2 Position of second secondary tie-point.
	 * @param ys2 Position of second secondary tie-point.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage match(VImage sec, int xr1, int yr1, int xs1, int ys1, int xr2, int yr2, int xs2, int ys2, VOption *options = nullptr) const;

	/**
	 * Apply a math operation to an image.
	 * @param math Math to perform.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage math(VipsOperationMath math, VOption *options = nullptr) const;

	/**
	 * Binary math operations.
	 * @param right Right-hand image argument.
	 * @param math2 Math to perform.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage math2(VImage right, VipsOperationMath2 math2, VOption *options = nullptr) const;

	/**
	 * Binary math operations with a constant.
	 * @param math2 Math to perform.
	 * @param c Array of constants.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage math2_const(VipsOperationMath2 math2, std::vector<double> c, VOption *options = nullptr) const;

	/**
	 * Load mat from file.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage matload(const char *filename, VOption *options = nullptr);

	/**
	 * Invert an matrix.
	 * @param options Set of options.
	 * @return Output matrix.
	 */
	VImage matrixinvert(VOption *options = nullptr) const;

	/**
	 * Load matrix.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage matrixload(const char *filename, VOption *options = nullptr);

	/**
	 * Load matrix.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage matrixload_source(VSource source, VOption *options = nullptr);

	/**
	 * Print matrix.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 */
	void matrixprint(VOption *options = nullptr) const;

	/**
	 * Save image to matrix.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void matrixsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save image to matrix.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void matrixsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Find image maximum.
	 *
	 * **Optional parameters**
	 *   - **size** -- Number of maximum values to find, int.
	 *
	 * @param options Set of options.
	 * @return Output value.
	 */
	double max(VOption *options = nullptr) const;

	/**
	 * Maximum of a pair of images.
	 * @param right Right-hand image argument.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage maxpair(VImage right, VOption *options = nullptr) const;

	/**
	 * Measure a set of patches on a color chart.
	 *
	 * **Optional parameters**
	 *   - **left** -- Left edge of extract area, int.
	 *   - **top** -- Top edge of extract area, int.
	 *   - **width** -- Width of extract area, int.
	 *   - **height** -- Height of extract area, int.
	 *
	 * @param h Number of patches across chart.
	 * @param v Number of patches down chart.
	 * @param options Set of options.
	 * @return Output array of statistics.
	 */
	VImage measure(int h, int v, VOption *options = nullptr) const;

	/**
	 * Merge two images.
	 *
	 * **Optional parameters**
	 *   - **mblend** -- Maximum blend size, int.
	 *
	 * @param sec Secondary image.
	 * @param direction Horizontal or vertical merge.
	 * @param dx Horizontal displacement from sec to ref.
	 * @param dy Vertical displacement from sec to ref.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage merge(VImage sec, VipsDirection direction, int dx, int dy, VOption *options = nullptr) const;

	/**
	 * Find image minimum.
	 *
	 * **Optional parameters**
	 *   - **size** -- Number of minimum values to find, int.
	 *
	 * @param options Set of options.
	 * @return Output value.
	 */
	double min(VOption *options = nullptr) const;

	/**
	 * Minimum of a pair of images.
	 * @param right Right-hand image argument.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage minpair(VImage right, VOption *options = nullptr) const;

	/**
	 * Morphology operation.
	 * @param mask Input matrix image.
	 * @param morph Morphological operation to perform.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage morph(VImage mask, VipsOperationMorphology morph, VOption *options = nullptr) const;

	/**
	 * Mosaic two images.
	 *
	 * **Optional parameters**
	 *   - **hwindow** -- Half window size, int.
	 *   - **harea** -- Half area size, int.
	 *   - **mblend** -- Maximum blend size, int.
	 *   - **bandno** -- Band to search for features on, int.
	 *
	 * @param sec Secondary image.
	 * @param direction Horizontal or vertical mosaic.
	 * @param xref Position of reference tie-point.
	 * @param yref Position of reference tie-point.
	 * @param xsec Position of secondary tie-point.
	 * @param ysec Position of secondary tie-point.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage mosaic(VImage sec, VipsDirection direction, int xref, int yref, int xsec, int ysec, VOption *options = nullptr) const;

	/**
	 * First-order mosaic of two images.
	 *
	 * **Optional parameters**
	 *   - **hwindow** -- Half window size, int.
	 *   - **harea** -- Half area size, int.
	 *   - **search** -- Search to improve tie-points, bool.
	 *   - **interpolate** -- Interpolate pixels with this, VInterpolate.
	 *   - **mblend** -- Maximum blend size, int.
	 *
	 * @param sec Secondary image.
	 * @param direction Horizontal or vertical mosaic.
	 * @param xr1 Position of first reference tie-point.
	 * @param yr1 Position of first reference tie-point.
	 * @param xs1 Position of first secondary tie-point.
	 * @param ys1 Position of first secondary tie-point.
	 * @param xr2 Position of second reference tie-point.
	 * @param yr2 Position of second reference tie-point.
	 * @param xs2 Position of second secondary tie-point.
	 * @param ys2 Position of second secondary tie-point.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage mosaic1(VImage sec, VipsDirection direction, int xr1, int yr1, int xs1, int ys1, int xr2, int yr2, int xs2, int ys2, VOption *options = nullptr) const;

	/**
	 * Pick most-significant byte from an image.
	 *
	 * **Optional parameters**
	 *   - **band** -- Band to msb, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage msb(VOption *options = nullptr) const;

	/**
	 * Multiply two images.
	 * @param right Right-hand image argument.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage multiply(VImage right, VOption *options = nullptr) const;

	/**
	 * Load nifti volume.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage niftiload(const char *filename, VOption *options = nullptr);

	/**
	 * Load nifti volumes.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage niftiload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save image to nifti file.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void niftisave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Load an openexr image.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage openexrload(const char *filename, VOption *options = nullptr);

	/**
	 * Load file with openslide.
	 *
	 * **Optional parameters**
	 *   - **level** -- Load this level from the file, int.
	 *   - **autocrop** -- Crop to image bounds, bool.
	 *   - **associated** -- Load this associated image, const char *.
	 *   - **attach_associated** -- Attach all associated images, bool.
	 *   - **rgb** -- Output RGB (not RGBA), bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage openslideload(const char *filename, VOption *options = nullptr);

	/**
	 * Load source with openslide.
	 *
	 * **Optional parameters**
	 *   - **level** -- Load this level from the file, int.
	 *   - **autocrop** -- Crop to image bounds, bool.
	 *   - **associated** -- Load this associated image, const char *.
	 *   - **attach_associated** -- Attach all associated images, bool.
	 *   - **rgb** -- Output RGB (not RGBA), bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage openslideload_source(VSource source, VOption *options = nullptr);

	/**
	 * Load pdf from file.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **dpi** -- DPI to render at, double.
	 *   - **scale** -- Factor to scale by, double.
	 *   - **background** -- Background colour, std::vector<double>.
	 *   - **password** -- Password to decrypt with, const char *.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage pdfload(const char *filename, VOption *options = nullptr);

	/**
	 * Load pdf from buffer.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **dpi** -- DPI to render at, double.
	 *   - **scale** -- Factor to scale by, double.
	 *   - **background** -- Background colour, std::vector<double>.
	 *   - **password** -- Password to decrypt with, const char *.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param buffer Buffer to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage pdfload_buffer(VipsBlob *buffer, VOption *options = nullptr);

	/**
	 * Load pdf from source.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **dpi** -- DPI to render at, double.
	 *   - **scale** -- Factor to scale by, double.
	 *   - **background** -- Background colour, std::vector<double>.
	 *   - **password** -- Password to decrypt with, const char *.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage pdfload_source(VSource source, VOption *options = nullptr);

	/**
	 * Find threshold for percent of pixels.
	 * @param percent Percent of pixels.
	 * @param options Set of options.
	 * @return Threshold above which lie percent of pixels.
	 */
	int percent(double percent, VOption *options = nullptr) const;

	/**
	 * Make a perlin noise image.
	 *
	 * **Optional parameters**
	 *   - **cell_size** -- Size of Perlin cells, int.
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **seed** -- Random number seed, int.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage perlin(int width, int height, VOption *options = nullptr);

	/**
	 * Calculate phase correlation.
	 * @param in2 Second input image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage phasecor(VImage in2, VOption *options = nullptr) const;

	/**
	 * Load png from file.
	 *
	 * **Optional parameters**
	 *   - **unlimited** -- Remove all denial of service limits, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage pngload(const char *filename, VOption *options = nullptr);

	/**
	 * Load png from buffer.
	 *
	 * **Optional parameters**
	 *   - **unlimited** -- Remove all denial of service limits, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param buffer Buffer to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage pngload_buffer(VipsBlob *buffer, VOption *options = nullptr);

	/**
	 * Load png from source.
	 *
	 * **Optional parameters**
	 *   - **unlimited** -- Remove all denial of service limits, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage pngload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save image to file as png.
	 *
	 * **Optional parameters**
	 *   - **compression** -- Compression factor, int.
	 *   - **interlace** -- Interlace image, bool.
	 *   - **filter** -- libspng row filter flag(s), VipsForeignPngFilter.
	 *   - **palette** -- Quantise to 8bpp palette, bool.
	 *   - **Q** -- Quantisation quality, int.
	 *   - **dither** -- Amount of dithering, double.
	 *   - **bitdepth** -- Write as a 1, 2, 4, 8 or 16 bit image, int.
	 *   - **effort** -- Quantisation CPU effort, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void pngsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save image to buffer as png.
	 *
	 * **Optional parameters**
	 *   - **compression** -- Compression factor, int.
	 *   - **interlace** -- Interlace image, bool.
	 *   - **filter** -- libspng row filter flag(s), VipsForeignPngFilter.
	 *   - **palette** -- Quantise to 8bpp palette, bool.
	 *   - **Q** -- Quantisation quality, int.
	 *   - **dither** -- Amount of dithering, double.
	 *   - **bitdepth** -- Write as a 1, 2, 4, 8 or 16 bit image, int.
	 *   - **effort** -- Quantisation CPU effort, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 * @return Buffer to save to.
	 */
	VipsBlob *pngsave_buffer(VOption *options = nullptr) const;

	/**
	 * Save image to target as png.
	 *
	 * **Optional parameters**
	 *   - **compression** -- Compression factor, int.
	 *   - **interlace** -- Interlace image, bool.
	 *   - **filter** -- libspng row filter flag(s), VipsForeignPngFilter.
	 *   - **palette** -- Quantise to 8bpp palette, bool.
	 *   - **Q** -- Quantisation quality, int.
	 *   - **dither** -- Amount of dithering, double.
	 *   - **bitdepth** -- Write as a 1, 2, 4, 8 or 16 bit image, int.
	 *   - **effort** -- Quantisation CPU effort, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void pngsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Load ppm from file.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage ppmload(const char *filename, VOption *options = nullptr);

	/**
	 * Load ppm base class.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage ppmload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save image to ppm file.
	 *
	 * **Optional parameters**
	 *   - **format** -- Format to save in, VipsForeignPpmFormat.
	 *   - **ascii** -- Save as ascii, bool.
	 *   - **bitdepth** -- Set to 1 to write as a 1 bit image, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void ppmsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save to ppm.
	 *
	 * **Optional parameters**
	 *   - **format** -- Format to save in, VipsForeignPpmFormat.
	 *   - **ascii** -- Save as ascii, bool.
	 *   - **bitdepth** -- Set to 1 to write as a 1 bit image, int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void ppmsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Premultiply image alpha.
	 *
	 * **Optional parameters**
	 *   - **max_alpha** -- Maximum value of alpha channel, double.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage premultiply(VOption *options = nullptr) const;

	/**
	 * Prewitt edge detector.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage prewitt(VOption *options = nullptr) const;

	/**
	 * Find image profiles.
	 * @param rows First non-zero pixel in row.
	 * @param options Set of options.
	 * @return First non-zero pixel in column.
	 */
	VImage profile(VImage *rows, VOption *options = nullptr) const;

	/**
	 * Load named icc profile.
	 * @param name Profile name.
	 * @param options Set of options.
	 * @return Loaded profile.
	 */
	static VipsBlob *profile_load(const char *name, VOption *options = nullptr);

	/**
	 * Find image projections.
	 * @param rows Sums of rows.
	 * @param options Set of options.
	 * @return Sums of columns.
	 */
	VImage project(VImage *rows, VOption *options = nullptr) const;

	/**
	 * Resample an image with a quadratic transform.
	 *
	 * **Optional parameters**
	 *   - **interpolate** -- Interpolate values with this, VInterpolate.
	 *
	 * @param coeff Coefficient matrix.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage quadratic(VImage coeff, VOption *options = nullptr) const;

	/**
	 * Unpack radiance coding to float rgb.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage rad2float(VOption *options = nullptr) const;

	/**
	 * Load a radiance image from a file.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage radload(const char *filename, VOption *options = nullptr);

	/**
	 * Load rad from buffer.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param buffer Buffer to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage radload_buffer(VipsBlob *buffer, VOption *options = nullptr);

	/**
	 * Load rad from source.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage radload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save image to radiance file.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void radsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save image to radiance buffer.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 * @return Buffer to save to.
	 */
	VipsBlob *radsave_buffer(VOption *options = nullptr) const;

	/**
	 * Save image to radiance target.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void radsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Rank filter.
	 * @param width Window width in pixels.
	 * @param height Window height in pixels.
	 * @param index Select pixel at index.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage rank(int width, int height, int index, VOption *options = nullptr) const;

	/**
	 * Load raw data from a file.
	 *
	 * **Optional parameters**
	 *   - **offset** -- Offset in bytes from start of file, guint64.
	 *   - **format** -- Pixel format in image, VipsBandFormat.
	 *   - **interpretation** -- Pixel interpretation, VipsInterpretation.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param bands Number of bands in image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage rawload(const char *filename, int width, int height, int bands, VOption *options = nullptr);

	/**
	 * Save image to raw file.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void rawsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Write raw image to buffer.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 * @return Buffer to save to.
	 */
	VipsBlob *rawsave_buffer(VOption *options = nullptr) const;

	/**
	 * Write raw image to target.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void rawsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Linear recombination with matrix.
	 * @param m Matrix of coefficients.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage recomb(VImage m, VOption *options = nullptr) const;

	/**
	 * Reduce an image.
	 *
	 * **Optional parameters**
	 *   - **kernel** -- Resampling kernel, VipsKernel.
	 *   - **gap** -- Reducing gap, double.
	 *
	 * @param hshrink Horizontal shrink factor.
	 * @param vshrink Vertical shrink factor.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage reduce(double hshrink, double vshrink, VOption *options = nullptr) const;

	/**
	 * Shrink an image horizontally.
	 *
	 * **Optional parameters**
	 *   - **kernel** -- Resampling kernel, VipsKernel.
	 *   - **gap** -- Reducing gap, double.
	 *
	 * @param hshrink Horizontal shrink factor.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage reduceh(double hshrink, VOption *options = nullptr) const;

	/**
	 * Shrink an image vertically.
	 *
	 * **Optional parameters**
	 *   - **kernel** -- Resampling kernel, VipsKernel.
	 *   - **gap** -- Reducing gap, double.
	 *
	 * @param vshrink Vertical shrink factor.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage reducev(double vshrink, VOption *options = nullptr) const;

	/**
	 * Relational operation on two images.
	 * @param right Right-hand image argument.
	 * @param relational Relational to perform.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage relational(VImage right, VipsOperationRelational relational, VOption *options = nullptr) const;

	/**
	 * Relational operations against a constant.
	 * @param relational Relational to perform.
	 * @param c Array of constants.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage relational_const(VipsOperationRelational relational, std::vector<double> c, VOption *options = nullptr) const;

	/**
	 * Remainder after integer division of two images.
	 * @param right Right-hand image argument.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage remainder(VImage right, VOption *options = nullptr) const;

	/**
	 * Remainder after integer division of an image and a constant.
	 * @param c Array of constants.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage remainder_const(std::vector<double> c, VOption *options = nullptr) const;

	/**
	 * Replicate an image.
	 * @param across Repeat this many times horizontally.
	 * @param down Repeat this many times vertically.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage replicate(int across, int down, VOption *options = nullptr) const;

	/**
	 * Resize an image.
	 *
	 * **Optional parameters**
	 *   - **kernel** -- Resampling kernel, VipsKernel.
	 *   - **gap** -- Reducing gap, double.
	 *   - **vscale** -- Vertical scale image by this factor, double.
	 *
	 * @param scale Scale image by this factor.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage resize(double scale, VOption *options = nullptr) const;

	/**
	 * Rotate an image.
	 * @param angle Angle to rotate image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage rot(VipsAngle angle, VOption *options = nullptr) const;

	/**
	 * Rotate an image.
	 *
	 * **Optional parameters**
	 *   - **angle** -- Angle to rotate image, VipsAngle45.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage rot45(VOption *options = nullptr) const;

	/**
	 * Rotate an image by a number of degrees.
	 *
	 * **Optional parameters**
	 *   - **interpolate** -- Interpolate pixels with this, VInterpolate.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **odx** -- Horizontal output displacement, double.
	 *   - **ody** -- Vertical output displacement, double.
	 *   - **idx** -- Horizontal input displacement, double.
	 *   - **idy** -- Vertical input displacement, double.
	 *
	 * @param angle Rotate clockwise by this many degrees.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage rotate(double angle, VOption *options = nullptr) const;

	/**
	 * Perform a round function on an image.
	 * @param round Rounding operation to perform.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage round(VipsOperationRound round, VOption *options = nullptr) const;

	/**
	 * Transform srgb to hsv.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage sRGB2HSV(VOption *options = nullptr) const;

	/**
	 * Convert an srgb image to scrgb.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage sRGB2scRGB(VOption *options = nullptr) const;

	/**
	 * Convert scrgb to bw.
	 *
	 * **Optional parameters**
	 *   - **depth** -- Output device space depth in bits, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage scRGB2BW(VOption *options = nullptr) const;

	/**
	 * Transform scrgb to xyz.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage scRGB2XYZ(VOption *options = nullptr) const;

	/**
	 * Convert an scrgb image to srgb.
	 *
	 * **Optional parameters**
	 *   - **depth** -- Output device space depth in bits, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage scRGB2sRGB(VOption *options = nullptr) const;

	/**
	 * Scale an image to uchar.
	 *
	 * **Optional parameters**
	 *   - **exp** -- Exponent for log scale, double.
	 *   - **log** -- Log scale, bool.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage scale(VOption *options = nullptr) const;

	/**
	 * Scharr edge detector.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage scharr(VOption *options = nullptr) const;

	/**
	 * Create an sdf image.
	 *
	 * **Optional parameters**
	 *   - **r** -- Radius, double.
	 *   - **a** -- Point a, std::vector<double>.
	 *   - **b** -- Point b, std::vector<double>.
	 *   - **corners** -- Corner radii, std::vector<double>.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param shape SDF shape to create.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage sdf(int width, int height, VipsSdfShape shape, VOption *options = nullptr);

	/**
	 * Check sequential access.
	 *
	 * **Optional parameters**
	 *   - **tile_height** -- Tile height in pixels, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage sequential(VOption *options = nullptr) const;

	/**
	 * Unsharp masking for print.
	 *
	 * **Optional parameters**
	 *   - **sigma** -- Sigma of Gaussian, double.
	 *   - **x1** -- Flat/jaggy threshold, double.
	 *   - **y2** -- Maximum brightening, double.
	 *   - **y3** -- Maximum darkening, double.
	 *   - **m1** -- Slope for flat areas, double.
	 *   - **m2** -- Slope for jaggy areas, double.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage sharpen(VOption *options = nullptr) const;

	/**
	 * Shrink an image.
	 *
	 * **Optional parameters**
	 *   - **ceil** -- Round-up output dimensions, bool.
	 *
	 * @param hshrink Horizontal shrink factor.
	 * @param vshrink Vertical shrink factor.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage shrink(double hshrink, double vshrink, VOption *options = nullptr) const;

	/**
	 * Shrink an image horizontally.
	 *
	 * **Optional parameters**
	 *   - **ceil** -- Round-up output dimensions, bool.
	 *
	 * @param hshrink Horizontal shrink factor.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage shrinkh(int hshrink, VOption *options = nullptr) const;

	/**
	 * Shrink an image vertically.
	 *
	 * **Optional parameters**
	 *   - **ceil** -- Round-up output dimensions, bool.
	 *
	 * @param vshrink Vertical shrink factor.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage shrinkv(int vshrink, VOption *options = nullptr) const;

	/**
	 * Unit vector of pixel.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage sign(VOption *options = nullptr) const;

	/**
	 * Similarity transform of an image.
	 *
	 * **Optional parameters**
	 *   - **scale** -- Scale by this factor, double.
	 *   - **angle** -- Rotate clockwise by this many degrees, double.
	 *   - **interpolate** -- Interpolate pixels with this, VInterpolate.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **odx** -- Horizontal output displacement, double.
	 *   - **ody** -- Vertical output displacement, double.
	 *   - **idx** -- Horizontal input displacement, double.
	 *   - **idy** -- Vertical input displacement, double.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage similarity(VOption *options = nullptr) const;

	/**
	 * Make a 2d sine wave.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *   - **hfreq** -- Horizontal spatial frequency, double.
	 *   - **vfreq** -- Vertical spatial frequency, double.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage sines(int width, int height, VOption *options = nullptr);

	/**
	 * Extract an area from an image.
	 *
	 * **Optional parameters**
	 *   - **interesting** -- How to measure interestingness, VipsInteresting.
	 *   - **premultiplied** -- Input image already has premultiplied alpha, bool.
	 *
	 * @param width Width of extract area.
	 * @param height Height of extract area.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage smartcrop(int width, int height, VOption *options = nullptr) const;

	/**
	 * Sobel edge detector.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage sobel(VOption *options = nullptr) const;

	/**
	 * Spatial correlation.
	 * @param ref Input reference image.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage spcor(VImage ref, VOption *options = nullptr) const;

	/**
	 * Make displayable power spectrum.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage spectrum(VOption *options = nullptr) const;

	/**
	 * Find many image stats.
	 * @param options Set of options.
	 * @return Output array of statistics.
	 */
	VImage stats(VOption *options = nullptr) const;

	/**
	 * Statistical difference.
	 *
	 * **Optional parameters**
	 *   - **s0** -- New deviation, double.
	 *   - **b** -- Weight of new deviation, double.
	 *   - **m0** -- New mean, double.
	 *   - **a** -- Weight of new mean, double.
	 *
	 * @param width Window width in pixels.
	 * @param height Window height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage stdif(int width, int height, VOption *options = nullptr) const;

	/**
	 * Subsample an image.
	 *
	 * **Optional parameters**
	 *   - **point** -- Point sample, bool.
	 *
	 * @param xfac Horizontal subsample factor.
	 * @param yfac Vertical subsample factor.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage subsample(int xfac, int yfac, VOption *options = nullptr) const;

	/**
	 * Subtract two images.
	 * @param right Right-hand image argument.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage subtract(VImage right, VOption *options = nullptr) const;

	/**
	 * Sum an array of images.
	 * @param in Array of input images.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage sum(std::vector<VImage> in, VOption *options = nullptr);

	/**
	 * Load svg with rsvg.
	 *
	 * **Optional parameters**
	 *   - **dpi** -- Render at this DPI, double.
	 *   - **scale** -- Scale output by this factor, double.
	 *   - **unlimited** -- Allow SVG of any size, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage svgload(const char *filename, VOption *options = nullptr);

	/**
	 * Load svg with rsvg.
	 *
	 * **Optional parameters**
	 *   - **dpi** -- Render at this DPI, double.
	 *   - **scale** -- Scale output by this factor, double.
	 *   - **unlimited** -- Allow SVG of any size, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param buffer Buffer to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage svgload_buffer(VipsBlob *buffer, VOption *options = nullptr);

	/**
	 * Load svg from source.
	 *
	 * **Optional parameters**
	 *   - **dpi** -- Render at this DPI, double.
	 *   - **scale** -- Scale output by this factor, double.
	 *   - **unlimited** -- Allow SVG of any size, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage svgload_source(VSource source, VOption *options = nullptr);

	/**
	 * Find the index of the first non-zero pixel in tests.
	 * @param tests Table of images to test.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage switch_image(std::vector<VImage> tests, VOption *options = nullptr);

	/**
	 * Run an external command.
	 *
	 * **Optional parameters**
	 *   - **in** -- Array of input images, std::vector<VImage>.
	 *   - **out_format** -- Format for output filename, const char *.
	 *   - **in_format** -- Format for input filename, const char *.
	 *
	 * @param cmd_format Command to run.
	 * @param options Set of options.
	 */
	static void system(const char *cmd_format, VOption *options = nullptr);

	/**
	 * Make a text image.
	 *
	 * **Optional parameters**
	 *   - **font** -- Font to render with, const char *.
	 *   - **width** -- Maximum image width in pixels, int.
	 *   - **height** -- Maximum image height in pixels, int.
	 *   - **align** -- Align on the low, centre or high edge, VipsAlign.
	 *   - **justify** -- Justify lines, bool.
	 *   - **dpi** -- DPI to render at, int.
	 *   - **spacing** -- Line spacing, int.
	 *   - **fontfile** -- Load this font file, const char *.
	 *   - **rgba** -- Enable RGBA output, bool.
	 *   - **wrap** -- Wrap lines on word or character boundaries, VipsTextWrap.
	 *
	 * @param text Text to render.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage text(const char *text, VOption *options = nullptr);

	/**
	 * Generate thumbnail from file.
	 *
	 * **Optional parameters**
	 *   - **height** -- Size to this height, int.
	 *   - **size** -- Only upsize, only downsize, or both, VipsSize.
	 *   - **no_rotate** -- Don't use orientation tags to rotate image upright, bool.
	 *   - **crop** -- Reduce to fill target rectangle, then crop, VipsInteresting.
	 *   - **linear** -- Reduce in linear light, bool.
	 *   - **import_profile** -- Fallback import profile, const char *.
	 *   - **export_profile** -- Fallback export profile, const char *.
	 *   - **intent** -- Rendering intent, VipsIntent.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *
	 * @param filename Filename to read from.
	 * @param width Size to this width.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage thumbnail(const char *filename, int width, VOption *options = nullptr);

	/**
	 * Generate thumbnail from buffer.
	 *
	 * **Optional parameters**
	 *   - **option_string** -- Options that are passed on to the underlying loader, const char *.
	 *   - **height** -- Size to this height, int.
	 *   - **size** -- Only upsize, only downsize, or both, VipsSize.
	 *   - **no_rotate** -- Don't use orientation tags to rotate image upright, bool.
	 *   - **crop** -- Reduce to fill target rectangle, then crop, VipsInteresting.
	 *   - **linear** -- Reduce in linear light, bool.
	 *   - **import_profile** -- Fallback import profile, const char *.
	 *   - **export_profile** -- Fallback export profile, const char *.
	 *   - **intent** -- Rendering intent, VipsIntent.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *
	 * @param buffer Buffer to load from.
	 * @param width Size to this width.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage thumbnail_buffer(VipsBlob *buffer, int width, VOption *options = nullptr);

	/**
	 * Generate thumbnail from image.
	 *
	 * **Optional parameters**
	 *   - **height** -- Size to this height, int.
	 *   - **size** -- Only upsize, only downsize, or both, VipsSize.
	 *   - **no_rotate** -- Don't use orientation tags to rotate image upright, bool.
	 *   - **crop** -- Reduce to fill target rectangle, then crop, VipsInteresting.
	 *   - **linear** -- Reduce in linear light, bool.
	 *   - **import_profile** -- Fallback import profile, const char *.
	 *   - **export_profile** -- Fallback export profile, const char *.
	 *   - **intent** -- Rendering intent, VipsIntent.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *
	 * @param width Size to this width.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage thumbnail_image(int width, VOption *options = nullptr) const;

	/**
	 * Generate thumbnail from source.
	 *
	 * **Optional parameters**
	 *   - **option_string** -- Options that are passed on to the underlying loader, const char *.
	 *   - **height** -- Size to this height, int.
	 *   - **size** -- Only upsize, only downsize, or both, VipsSize.
	 *   - **no_rotate** -- Don't use orientation tags to rotate image upright, bool.
	 *   - **crop** -- Reduce to fill target rectangle, then crop, VipsInteresting.
	 *   - **linear** -- Reduce in linear light, bool.
	 *   - **import_profile** -- Fallback import profile, const char *.
	 *   - **export_profile** -- Fallback export profile, const char *.
	 *   - **intent** -- Rendering intent, VipsIntent.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *
	 * @param source Source to load from.
	 * @param width Size to this width.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage thumbnail_source(VSource source, int width, VOption *options = nullptr);

	/**
	 * Load tiff from file.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **subifd** -- Subifd index, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **autorotate** -- Rotate image using orientation tag, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage tiffload(const char *filename, VOption *options = nullptr);

	/**
	 * Load tiff from buffer.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **subifd** -- Subifd index, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **autorotate** -- Rotate image using orientation tag, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param buffer Buffer to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage tiffload_buffer(VipsBlob *buffer, VOption *options = nullptr);

	/**
	 * Load tiff from source.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **subifd** -- Subifd index, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **autorotate** -- Rotate image using orientation tag, bool.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage tiffload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save image to tiff file.
	 *
	 * **Optional parameters**
	 *   - **compression** -- Compression for this file, VipsForeignTiffCompression.
	 *   - **Q** -- Q factor, int.
	 *   - **predictor** -- Compression prediction, VipsForeignTiffPredictor.
	 *   - **tile** -- Write a tiled tiff, bool.
	 *   - **tile_width** -- Tile width in pixels, int.
	 *   - **tile_height** -- Tile height in pixels, int.
	 *   - **pyramid** -- Write a pyramidal tiff, bool.
	 *   - **miniswhite** -- Use 0 for white in 1-bit images, bool.
	 *   - **bitdepth** -- Write as a 1, 2, 4 or 8 bit image, int.
	 *   - **resunit** -- Resolution unit, VipsForeignTiffResunit.
	 *   - **xres** -- Horizontal resolution in pixels/mm, double.
	 *   - **yres** -- Vertical resolution in pixels/mm, double.
	 *   - **bigtiff** -- Write a bigtiff image, bool.
	 *   - **properties** -- Write a properties document to IMAGEDESCRIPTION, bool.
	 *   - **region_shrink** -- Method to shrink regions, VipsRegionShrink.
	 *   - **level** -- Deflate (1-9, default 6) or ZSTD (1-22, default 9) compression level, int.
	 *   - **lossless** -- Enable WEBP lossless mode, bool.
	 *   - **depth** -- Pyramid depth, VipsForeignDzDepth.
	 *   - **subifd** -- Save pyr layers as sub-IFDs, bool.
	 *   - **premultiply** -- Save with premultiplied alpha, bool.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void tiffsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save image to tiff buffer.
	 *
	 * **Optional parameters**
	 *   - **compression** -- Compression for this file, VipsForeignTiffCompression.
	 *   - **Q** -- Q factor, int.
	 *   - **predictor** -- Compression prediction, VipsForeignTiffPredictor.
	 *   - **tile** -- Write a tiled tiff, bool.
	 *   - **tile_width** -- Tile width in pixels, int.
	 *   - **tile_height** -- Tile height in pixels, int.
	 *   - **pyramid** -- Write a pyramidal tiff, bool.
	 *   - **miniswhite** -- Use 0 for white in 1-bit images, bool.
	 *   - **bitdepth** -- Write as a 1, 2, 4 or 8 bit image, int.
	 *   - **resunit** -- Resolution unit, VipsForeignTiffResunit.
	 *   - **xres** -- Horizontal resolution in pixels/mm, double.
	 *   - **yres** -- Vertical resolution in pixels/mm, double.
	 *   - **bigtiff** -- Write a bigtiff image, bool.
	 *   - **properties** -- Write a properties document to IMAGEDESCRIPTION, bool.
	 *   - **region_shrink** -- Method to shrink regions, VipsRegionShrink.
	 *   - **level** -- Deflate (1-9, default 6) or ZSTD (1-22, default 9) compression level, int.
	 *   - **lossless** -- Enable WEBP lossless mode, bool.
	 *   - **depth** -- Pyramid depth, VipsForeignDzDepth.
	 *   - **subifd** -- Save pyr layers as sub-IFDs, bool.
	 *   - **premultiply** -- Save with premultiplied alpha, bool.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 * @return Buffer to save to.
	 */
	VipsBlob *tiffsave_buffer(VOption *options = nullptr) const;

	/**
	 * Save image to tiff target.
	 *
	 * **Optional parameters**
	 *   - **compression** -- Compression for this file, VipsForeignTiffCompression.
	 *   - **Q** -- Q factor, int.
	 *   - **predictor** -- Compression prediction, VipsForeignTiffPredictor.
	 *   - **tile** -- Write a tiled tiff, bool.
	 *   - **tile_width** -- Tile width in pixels, int.
	 *   - **tile_height** -- Tile height in pixels, int.
	 *   - **pyramid** -- Write a pyramidal tiff, bool.
	 *   - **miniswhite** -- Use 0 for white in 1-bit images, bool.
	 *   - **bitdepth** -- Write as a 1, 2, 4 or 8 bit image, int.
	 *   - **resunit** -- Resolution unit, VipsForeignTiffResunit.
	 *   - **xres** -- Horizontal resolution in pixels/mm, double.
	 *   - **yres** -- Vertical resolution in pixels/mm, double.
	 *   - **bigtiff** -- Write a bigtiff image, bool.
	 *   - **properties** -- Write a properties document to IMAGEDESCRIPTION, bool.
	 *   - **region_shrink** -- Method to shrink regions, VipsRegionShrink.
	 *   - **level** -- Deflate (1-9, default 6) or ZSTD (1-22, default 9) compression level, int.
	 *   - **lossless** -- Enable WEBP lossless mode, bool.
	 *   - **depth** -- Pyramid depth, VipsForeignDzDepth.
	 *   - **subifd** -- Save pyr layers as sub-IFDs, bool.
	 *   - **premultiply** -- Save with premultiplied alpha, bool.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void tiffsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Cache an image as a set of tiles.
	 *
	 * **Optional parameters**
	 *   - **tile_width** -- Tile width in pixels, int.
	 *   - **tile_height** -- Tile height in pixels, int.
	 *   - **max_tiles** -- Maximum number of tiles to cache, int.
	 *   - **access** -- Expected access pattern, VipsAccess.
	 *   - **threaded** -- Allow threaded access, bool.
	 *   - **persistent** -- Keep cache between evaluations, bool.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage tilecache(VOption *options = nullptr) const;

	/**
	 * Build a look-up table.
	 *
	 * **Optional parameters**
	 *   - **in_max** -- Size of LUT to build, int.
	 *   - **out_max** -- Maximum value in output LUT, int.
	 *   - **Lb** -- Lowest value in output, double.
	 *   - **Lw** -- Highest value in output, double.
	 *   - **Ps** -- Position of shadow, double.
	 *   - **Pm** -- Position of mid-tones, double.
	 *   - **Ph** -- Position of highlights, double.
	 *   - **S** -- Adjust shadows by this much, double.
	 *   - **M** -- Adjust mid-tones by this much, double.
	 *   - **H** -- Adjust highlights by this much, double.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage tonelut(VOption *options = nullptr);

	/**
	 * Transpose3d an image.
	 *
	 * **Optional parameters**
	 *   - **page_height** -- Height of each input page, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage transpose3d(VOption *options = nullptr) const;

	/**
	 * Unpremultiply image alpha.
	 *
	 * **Optional parameters**
	 *   - **max_alpha** -- Maximum value of alpha channel, double.
	 *   - **alpha_band** -- Unpremultiply with this alpha, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage unpremultiply(VOption *options = nullptr) const;

	/**
	 * Load vips from file.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage vipsload(const char *filename, VOption *options = nullptr);

	/**
	 * Load vips from source.
	 *
	 * **Optional parameters**
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage vipsload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save image to file in vips format.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void vipssave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save image to target in vips format.
	 *
	 * **Optional parameters**
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void vipssave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Load webp from file.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **scale** -- Factor to scale by, double.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param filename Filename to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage webpload(const char *filename, VOption *options = nullptr);

	/**
	 * Load webp from buffer.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **scale** -- Factor to scale by, double.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param buffer Buffer to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage webpload_buffer(VipsBlob *buffer, VOption *options = nullptr);

	/**
	 * Load webp from source.
	 *
	 * **Optional parameters**
	 *   - **page** -- First page to load, int.
	 *   - **n** -- Number of pages to load, -1 for all, int.
	 *   - **scale** -- Factor to scale by, double.
	 *   - **memory** -- Force open via memory, bool.
	 *   - **access** -- Required access pattern for this file, VipsAccess.
	 *   - **fail_on** -- Error level to fail on, VipsFailOn.
	 *   - **revalidate** -- Don't use a cached result for this operation, bool.
	 *
	 * @param source Source to load from.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage webpload_source(VSource source, VOption *options = nullptr);

	/**
	 * Save as webp.
	 *
	 * **Optional parameters**
	 *   - **Q** -- Q factor, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **preset** -- Preset for lossy compression, VipsForeignWebpPreset.
	 *   - **smart_subsample** -- Enable high quality chroma subsampling, bool.
	 *   - **near_lossless** -- Enable preprocessing in lossless mode (uses Q), bool.
	 *   - **alpha_q** -- Change alpha plane fidelity for lossy compression, int.
	 *   - **min_size** -- Optimise for minimum size, bool.
	 *   - **kmin** -- Minimum number of frames between key frames, int.
	 *   - **kmax** -- Maximum number of frames between key frames, int.
	 *   - **effort** -- Level of CPU effort to reduce file size, int.
	 *   - **target_size** -- Desired target size in bytes, int.
	 *   - **mixed** -- Allow mixed encoding (might reduce file size), bool.
	 *   - **smart_deblock** -- Enable auto-adjusting of the deblocking filter, bool.
	 *   - **passes** -- Number of entropy-analysis passes (in [1..10]), int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param filename Filename to save to.
	 * @param options Set of options.
	 */
	void webpsave(const char *filename, VOption *options = nullptr) const;

	/**
	 * Save as webp.
	 *
	 * **Optional parameters**
	 *   - **Q** -- Q factor, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **preset** -- Preset for lossy compression, VipsForeignWebpPreset.
	 *   - **smart_subsample** -- Enable high quality chroma subsampling, bool.
	 *   - **near_lossless** -- Enable preprocessing in lossless mode (uses Q), bool.
	 *   - **alpha_q** -- Change alpha plane fidelity for lossy compression, int.
	 *   - **min_size** -- Optimise for minimum size, bool.
	 *   - **kmin** -- Minimum number of frames between key frames, int.
	 *   - **kmax** -- Maximum number of frames between key frames, int.
	 *   - **effort** -- Level of CPU effort to reduce file size, int.
	 *   - **target_size** -- Desired target size in bytes, int.
	 *   - **mixed** -- Allow mixed encoding (might reduce file size), bool.
	 *   - **smart_deblock** -- Enable auto-adjusting of the deblocking filter, bool.
	 *   - **passes** -- Number of entropy-analysis passes (in [1..10]), int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 * @return Buffer to save to.
	 */
	VipsBlob *webpsave_buffer(VOption *options = nullptr) const;

	/**
	 * Save image to webp mime.
	 *
	 * **Optional parameters**
	 *   - **Q** -- Q factor, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **preset** -- Preset for lossy compression, VipsForeignWebpPreset.
	 *   - **smart_subsample** -- Enable high quality chroma subsampling, bool.
	 *   - **near_lossless** -- Enable preprocessing in lossless mode (uses Q), bool.
	 *   - **alpha_q** -- Change alpha plane fidelity for lossy compression, int.
	 *   - **min_size** -- Optimise for minimum size, bool.
	 *   - **kmin** -- Minimum number of frames between key frames, int.
	 *   - **kmax** -- Maximum number of frames between key frames, int.
	 *   - **effort** -- Level of CPU effort to reduce file size, int.
	 *   - **target_size** -- Desired target size in bytes, int.
	 *   - **mixed** -- Allow mixed encoding (might reduce file size), bool.
	 *   - **smart_deblock** -- Enable auto-adjusting of the deblocking filter, bool.
	 *   - **passes** -- Number of entropy-analysis passes (in [1..10]), int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param options Set of options.
	 */
	void webpsave_mime(VOption *options = nullptr) const;

	/**
	 * Save as webp.
	 *
	 * **Optional parameters**
	 *   - **Q** -- Q factor, int.
	 *   - **lossless** -- Enable lossless compression, bool.
	 *   - **preset** -- Preset for lossy compression, VipsForeignWebpPreset.
	 *   - **smart_subsample** -- Enable high quality chroma subsampling, bool.
	 *   - **near_lossless** -- Enable preprocessing in lossless mode (uses Q), bool.
	 *   - **alpha_q** -- Change alpha plane fidelity for lossy compression, int.
	 *   - **min_size** -- Optimise for minimum size, bool.
	 *   - **kmin** -- Minimum number of frames between key frames, int.
	 *   - **kmax** -- Maximum number of frames between key frames, int.
	 *   - **effort** -- Level of CPU effort to reduce file size, int.
	 *   - **target_size** -- Desired target size in bytes, int.
	 *   - **mixed** -- Allow mixed encoding (might reduce file size), bool.
	 *   - **smart_deblock** -- Enable auto-adjusting of the deblocking filter, bool.
	 *   - **passes** -- Number of entropy-analysis passes (in [1..10]), int.
	 *   - **keep** -- Which metadata to retain, VipsForeignKeep.
	 *   - **background** -- Background value, std::vector<double>.
	 *   - **page_height** -- Set page height for multipage save, int.
	 *   - **profile** -- Filename of ICC profile to embed, const char *.
	 *
	 * @param target Target to save to.
	 * @param options Set of options.
	 */
	void webpsave_target(VTarget target, VOption *options = nullptr) const;

	/**
	 * Make a worley noise image.
	 *
	 * **Optional parameters**
	 *   - **cell_size** -- Size of Worley cells, int.
	 *   - **seed** -- Random number seed, int.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage worley(int width, int height, VOption *options = nullptr);

	/**
	 * Wrap image origin.
	 *
	 * **Optional parameters**
	 *   - **x** -- Left edge of input in output, int.
	 *   - **y** -- Top edge of input in output, int.
	 *
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage wrap(VOption *options = nullptr) const;

	/**
	 * Make an image where pixel values are coordinates.
	 *
	 * **Optional parameters**
	 *   - **csize** -- Size of third dimension, int.
	 *   - **dsize** -- Size of fourth dimension, int.
	 *   - **esize** -- Size of fifth dimension, int.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage xyz(int width, int height, VOption *options = nullptr);

	/**
	 * Make a zone plate.
	 *
	 * **Optional parameters**
	 *   - **uchar** -- Output an unsigned char image, bool.
	 *
	 * @param width Image width in pixels.
	 * @param height Image height in pixels.
	 * @param options Set of options.
	 * @return Output image.
	 */
	static VImage zone(int width, int height, VOption *options = nullptr);

	/**
	 * Zoom an image.
	 * @param xfac Horizontal zoom factor.
	 * @param yfac Vertical zoom factor.
	 * @param options Set of options.
	 * @return Output image.
	 */
	VImage zoom(int xfac, int yfac, VOption *options = nullptr) const;
};

VIPS_NAMESPACE_END

#endif /*VIPS_VIMAGE_H*/
